The International Atomic Energy Agency (IAEA) will be hosting the Third Technical Meeting on Plasma Disruptions and their Mitigation at ITER Headquarters from 3 to 6 September 2024.

The event aims to serve as a forum to help coordinate experimental, theoretical and modelling work in the field of plasma disruptions with special emphasis on developing a solid basis for possible mitigation strategies in ITER and next generation fusion devices. Participation is aimed at junior and senior scientific fusion project leaders, plasma physicists including theoreticians and experimentalists, and experts (researchers and engineers) in the field of plasma disruptions.

The deadline for abstract submission is 25 May 2024. See all information here.

On Tuesday 18 June 2024, the London Science Museum will host FUSION24, an event for anyone who wants to learn more about the opportunities that this emerging industry offers businesses, communities and the planet.

What will the power plants of the future look like? How do we fund fusion? What are we learning from other industries? How can we capitalize on a non-restrictive regulatory environment? How can we build on the current momentum? Sessions will cover everything from the solutions that a future with fusion will offer, to the skills required for success and the new markets that we will discover on the way. (See a list of planned sessions here.)

The event is free of charge. See the FUSION24 website to register to attend in person (space limited) or on line.

The European Domestic Agency Fusion for Energy (F4E) is calling for fusion technology transfer demonstrator proposals before 30 July 2024. 

Open to European companies and organizations, the call aims to support projects that propose to take fusion breakthroughs into new markets. Proposals will be evaluated on the feasibility of the demonstrator project, its innovation potential, and socio-economic impact.

Proposals should describe the further use or adaptation of a technology or skill developed under F4E activities into a new product or service in non-fusion applications. The Call invites entities from the fusion sector (F4E's Industrial Partners) and the non-fusion sector to submit proposals.

The selected project will be funded with EUR 50,000. See this webpage for a description of the Call and this website to apply.

The 13th ITER International School will be held from 9 to 13 December 2024 in Nagoya hosted by National Institute for Fusion Science (NIFS), Japan. The theme this year is "Magnetic Fusion Diagnostics and Data Science."

Diagnostics are key to the achievement of ITER fusion power demonstration goals and they require the application of a wide range of techniques. But diagnostics are not enough to ensure ITER's success; only through advanced analysis of the data they provide will it be possible to guide the experiments towards their fusion power goals. It is timely to address these multidisciplinary areas in the ITER school.

Pre-registration will open in early May. See all information here. To advertise the School in your institute, download a poster here.

The annual PhD Event organized by the European Fusion Education Network, FuseNet, will take place this year at the University of Stuttgart, Germany, from 3 to 5 September.

Meet and greet fellow fusion researchers from Europe and expand your network. The event will feature high-profile keynote speakers, a top-notch scientific program and the much anticipate PechaKucha contest, where students present their research in 20 slides, 20 seconds per slide.

Registration is open through 15 June 2024. See more information at this address.

In the sixth installment of ITER Japan's manga series on the project, our hero Taiyô Tenno joins veteran staff member Mirai Mitsuhashi on a visit to the QST* R&D facility for the ITER divertor. Researchers there have developed a full-scale prototype for the outer vertical target, one of components of the divertor that will have to withstand the most intense heat load.

By going back in time, Mirai reviews the incredible challenge that was posed to industry and the years of development  that culminated in the successful high heat flux testing of the full-scale prototype. 

Travel along with Mirai and Taiyô by downloading Volume 6 of "ITER: A Small Sun on Earth" (divertor) from the ITER Japan website or directly from the ITER Publications gallery (comics).

*QST = Japan's National Institutes for Quantum Science and Technology 

Applications are open for the EUROfusion Bernard Bigot Researcher Grants that fund individual postdoctoral research projects for two years starting in 2025.

Researchers and engineers of all nationalities in possession of a doctoral degree (PhD) who have completed the PhD and defended their thesis in the two years preceding the application deadline are eligible. Candidates must be employed by a EUROfusion Consortium member or one of their Affiliated Entities during the grant period. Interested candidates should jointly prepare their application with an institute(s) affiliated with EUROfusion, who submits the application and offers to employ the candidate for the proposed duration of the project.

The grant will contribute to the salaries and research and training activities of up to 10 outstanding early career researchers. The application deadline is 6 May 2024. For details, or to join the information session planned on 11 April 2024 at 14:00 CET, see the EUROfusion website.

In just the past few weeks, these in-depth studies and reports have been published on fusion energy and fusion energy acceleration. 

Analysis on a strategic public-private partnership approach to foster innovation in fusion energy is a report commissioned by the European Union that provides analysis and recommendations for the European Commission on the establishment of a public-private partnership approach to support industrial innovation in fusion. The 128-page report can be downloaded at this address.

As part of its Technical Documents series (TECDOCs), the International Atomic Energy Agency has just published Considerations of Technology Readiness Levels for Fusion Technology Components (IAEA-TECDOC-2047, 91 pages) and Plasma Physics and Technology Aspects of the Deuterium—Tritium Fuel Cycle for Fusion Energy (IAEA-TECDOC-2049, 73 pages). Both reports can be downloaded or ordered in print form from this webpage. 

-- Photo of KSTAR (© KFE)

The ITER Organization has opened its 2024 internship program with the publication of 60 offers on the ITER website. These opportunities are geared toward undergraduate and postgraduate students, with a broad array of topics across scientific, technical and support departments. Applicants must hold a passport from one of the countries participating in the ITER Project (the People's Republic of China, the European Union, India, Japan, the Republic of Korea, the Russian Federation and the USA).

See this page to apply. The deadline for students to submit their application is 17 March 2024. Please note that additional internship opportunities will be launched in May 2024.

2024 IEEE Fusion Technology Awards will be presented during the 31th Symposium on Fusion Engineering (SOFE 2025, Boston) to individuals who have distinguished themselves through innovation in any fusion approach that has shown significant promise or progress in the design of reactors or in the understanding of fusion plasmas. The awards each consist of a USD 3,000 cash prize, a plaque, and an invited talk at SOFE 2025.

The nomination package—consisting of a letter describing the technical contributions on which the nomination is recommended and a current resume of the candidate—should be sent before 11 March to the Fusion Technology Committee Awards Chair, Dr. Carl Pawley (drcpawley@ieee.org). Other supporting endorsements are encouraged. Equal consideration will be given to innovation in all fusion approaches and outstanding leadership in the fusion community.

For more detailed information on eligibility, basis for judging, the nomination process or a list of past award recipients, please visit the IEEE-NPSS website and go to the "Fusion Technology Awards" section.

--The IEEE Nuclear Plasma Science Society (NPSS) Fusion Technology Standing Committee

There was a time in fusion history when one single man could be credited with inspiring the best part of a machine's design. French physicist Paul-Henri Rebut was this kind of a man. In the early 1970s, a little more than a decade after entering fusion research at France's Atomic Energy Commission (CEA), he was instrumental in building TFR, for Tokamak de Fontenay-aux-Roses, a Paris suburb where CEA was then located. For his colleagues, however, TFR meant Tokamak Façon Rebut, which can be understood as "Tokamak à la Rebut"...

Operational in 1973, TFR was an ambitious and powerful machine that played a key role in exploring the physics and establishing the technology that made possible the construction of the "giants of the 1970s,"—the European JET, the American TFTR, the Japanese JT-60 and the Soviet T-15.

The experience accumulated at TFR led to the first international cooperation in constructing a fusion machine, the European JET whose design, quite naturally, was entrusted to Rebut and his team. Last week, as the fusion community celebrated JET's accomplishments at the Culham Campus (UK), the 89-year-old physicist, introduced as "the inventor and designer" of the iconic machine, was greeted by a standing ovation. It is under Rebut's stewardship that JET produced the first-ever deuterium-tritium plasmas, a campaign that culminated in a historical 16 MW of peak fusion power. Rebut later piloted the ITER design activities (1992-1994), and well into the 2000s he was a familiar figure at ITER Headquarters providing advice and suggestions to optimize the ITER design.

Photo: The JET project team in 1977: Paul-Henri Rebut (centre) and colleagues Alan Gibson (UK), Giulio Celentano (Italy), Ettore Salpietro (Italy), John Last (UK), Barry Green (Australia), Peter Noll (Germany), Jean-Pierre Poffé (Belgium), Ingevar Selin (Sweden), and Dieter Eckhart (Germany). © EFDA

Read the full article on Rebut's standing ovation during JET's celebration day here.

The ITER Organization has opened its 2024 internship program with the publication of 60 offers on the ITER website. These opportunities are geared toward undergraduate and postgraduate students, with a broad array of topics across scientific, technical and support departments. Applicants must hold a passport from one of the countries participating in the ITER Project (the People's Republic of China, the European Union, India, Japan, the Republic of Korea, the Russian Federation and the USA).

See this page to apply. The deadline for students to submit their application is 17 March 2024. Please note that additional internship opportunities will be launched in May 2024.

The third edition of the Tritium School will take place in Marseille, France, from 18 to 22 March 2024. Organized by the TITANS Project, which strives to improve tritium management and knowledge to meet the growing demand for nuclear energy, it is organized around four days of invited lectures and contributed talks, and a fifth day comprising a visit to the ITER site.

The young generation of researchers working in fusion and fission research and development is encouraged to participate.

Topics for discussion will include tritium management, inventory and control; waste; radiotoxicity/ecotoxicity; epidemiology of tritium; and tritium dosimetry.

For all information, and to register, see this webpage. The School will be conducted in English.

If your PhD was awarded after 1 January 2021—or you are about to obtain one—you are eligible to apply for a Monaco-ITER Postdoctoral Fellowship.

The Fellowship Program is recruiting now for two-year terms beginning autumn 2024.

Since 2008, 39 young scientists and engineers have been able to participate directly in ITER, working on cutting-edge issues in science and technology with some of the leading scientists and engineers in each domain. The principal aim of the Research Fellowships, which are funded by the Principality of Monaco, is the development of research excellence in fusion science and technology within the framework of ITER.

The deadline for application is coming up (29 February 2024). See all information here.

The Fusion Industry School is a two-week interactive program of lectures from world-leading experts in fusion, aimed at providing an overview of the current progress and challenges to industry professionals. The school consists of lectures, networking sessions, panel discussions and Q&As as well as visits to the UKAEA national fusion facilities. 

The Fusion Centre for Doctoral Training (CDT) and the UK Atomic Energy Authority (UKAEA) have worked with the fusion community to prepare a program created to meet the needs of the emerging fusion industry and associated supply chain companies and organizations.

The first week (17-20 June 2024) takes place in York (UK) and focuses on the underpinning fusion science and technology. The second week (30 September to 3 October 2024) in Oxfordshire (UK) builds on the first week, with more of an emphasis on engineering applications. The program is optimized for delegates attending both weeks, but there is still benefit to only attending one. No prior knowledge of fusion science and technology is necessary.

Visit the program website for all information and testimonials from previous delegates: Fusion Industry School 2024

Fusion Power Associates is calling out for nominations for two awards:

* The 2024 Leadership and Distinguished Career Awards (nominations are sought by 1 June). No supporting material is required for these nominations, although supporting statements are appreciated.

* The 2024 Excellence in Fusion Engineering Awards (Nominations are sought by 15 June). The purpose is to recognize individuals in the early part of their careers (maximum age 42) with both technical accomplishment and demonstrated leadership qualities. Nominating material should include the candidate's bio and letters of recommendation, including at least one letter from outside the nominee's home institution. 

Nominations and nominating material should preferably be sent electronically but may also be faxed to 1-301-975-9869 or mailed to Fusion Power Associates, 2 Professional Drive, Suite 249, Gaithersburg, MD 20879, USA.

The purpose, criteria and list of previous recipients for all awards are posted at http://fusionpower.org and click on Awards. For questions contact: fusionpwrassoc@aol.com

The European Domestic Agency, Fusion for Energy, has announced that the first of five vacuum vessel sectors under its responsibility has passed leak testing.

The tests, which assess leak tightness using nitrogen and helium, are the first in a line of factory acceptance tests that must be completed successfully before the component can ship.

See the full report on the Fusion for Energy website.

--View of the Europe's vacuum vessel sector 5, Westinghouse/Mangiarotti, Italy ©F4E

The IEEE Nuclear Plasma Science Society (NPSS) Fusion Technology Standing Committee is pleased to announce that during the 31th Symposium on Fusion Engineering (SOFE 2025) in Boston, the 2024 Fusion Technology Awards will be presented to individuals who have distinguished themselves through innovation in any fusion approach that has shown significant promise or progress in the design of reactors or in the understanding of fusion plasmas. The awards each consist of a USD 3,000 cash prize, a plaque, and an invited talk at SOFE 2025.

The nomination package—consisting of a letter describing the technical contributions on which the nomination is recommended and a current resume of the candidate—should be sent to the Fusion Technology Committee Awards Chair, Dr. Carl Pawley (drcpawley@ieee.org). Other supporting endorsements are encouraged. Equal consideration will be given to innovation in all fusion approaches and outstanding leadership in the fusion community.

For more detailed information on eligibility, basis for judging, the nomination process or a list of past award recipients, please visit the IEEE-NPSS website and go to the "Fusion Technology Awards" section.

The nomination deadline for the 2024 Fusion Technology Awards is 11 March 2024.

Senior Project Manager Laure Navarro (ITER/MOMENTUM) will be speaking in March at the Construction Technology Summit in Austin, Texas, on the topic of "How digital technology is helping to build the ITER fusion reactor."

The conference is planned for Tuesday 19 March at 15h10 CST (in-person only).

See all information on this webpage.

In December 2021 the JET tokamak broke the world record for fusion power. Pulse #99971 achieved total fusion energy of 59 MJ—more than doubling JET's 1997 record.

STARMAKERS: The Energy Of Tomorrow tells the story of this achievement. It takes the viewer behind the scenes of the landmark European fusion experiment to show how scientists and engineers overcame incredible obstacles to move the world one step closer to a future of clean, safe, cheap and unlimited energy.

The documentary is available on Prime Video to rent or buy. Depending on your region, try this link or this link.

The European Master of Science in Nuclear Fusion and Engineering Physics (FUSION-EP) is a two-year Erasmus Mundus Joint Master Degree (EMJMD) funded by the European Union. Focusing on the physics and technology of nuclear fusion as an energy source, it offers research-oriented education in engineering physics, offered by a consortium of eight European universities in Belgium, Czech Republic, France, Germany and Spain.

The curriculum is organized in two periods of increasing specialization, each in two different countries, along two distinct tracks: Fusion Sciences and Fusion Technology.

Students from all countries can apply. The selection procedure does not make any distinction between EU students and students coming from outside the EU. Scholarships are available to top-ranked students that cover the participation fee and offer a monthly allowance for the two years.

The campaign for the program beginning autumn 2024 is underway now. Apply before 15 February 2024 on the FUSION EP website.

The 15th ITER Neutronics Meeting and Fusion Neutronics Workshop 2024 will be held at ITER Headquarters from 8 to 10 April 2024.

The workshop will provide the opportunity for the fusion neutronics community to discuss recent advancements, issues and successes in the field.

Considering work underway in startups on alternative fusion concepts, progress on other technologies such as inertial fusion, and recent advancements (codes, shielding materials, etc.), the workshop seeks to broaden participation beyond ITER/DEMO scope. We encourage young researchers and fusion start-ups to participate in this event and present their work.

Planned topics include:

• Neutronics related to ITER
• Nuclear-radiation-related safety issues (safety margins/uncertainties, code qualification)
• Computational tools and nuclear data relevant for nuclear fusion (transport codes, activation codes, CAD/MCNP converting tools ...)
• Dose reduction methods and optimization, ALARA
• Shielding materials
• Material damage, nuclear heating, radioactive waste production and management 
• Accelerator-driven neutron sources for fusion applications
• Activated corrosion products
• Nuclear licensing for fusion reactors 
• Neutronics beyond ITER (DEMO, fusion power plants, alternate fusion schemes)

This meeting will be held primarily in-person but a few online presentations/participations are also possible. Subject to conditions, this workshop also includes ITER construction site visit.

See important dates and registration information on this page. 

On Friday 2 February, the Royal Institution in London is hosting a public discussion on "The latest developments in fusion energy."

At this in-person and live-streamed event, co-hosted by the UK Atomic Energy Authority (UKAEA), distinguished experts Fernanda Rimini (UKAEA), Pietro Barabaschi (Director-General of the ITER Project), and Tammy Ma (Lawrence Livermore National Laboratory) will take participants on a journey into the heart of fusion research and the most recent and groundbreaking discoveries in this leading-edge field.

See all information for how to attend in person or online here.

The recruitment campaign for 2024-2026 Monaco-ITER Postdoctoral Fellowships has opened. We are looking for top candidates with an excellent track record of creativity and accomplishment. Research possibilities exist in many areas of fusion science and technology, including:

Control technology
Plasma-facing materials and components
Burning plasma physics (confinement, stability, plasma-wall interactions, control, energetic particle physics)
Heating and current drive physics and technology
Fusion plasma diagnostics
Superconducting magnet technology
Electrical engineering
Mechanical engineering/ structural analysis
Remote handling technology
Vacuum technology and plasma fuelling technology
Cryogenics
Tokamak operations
Tritium breeding and tritium handling technology
Thermohydraulics

If your PhD was awarded after 1 January 2021—or if you are about to obtain one—and you come from one of the seven ITER Members or the Principality of Monaco, you are eligible to apply.

See all information on this webpage. Applications close on 29 February.

Fusion researchers are constantly challenging the scientific state of the art and improving the technology. This drive lay the basis the conditions for innovation, much of which can be exploited in other sciences and industrial sectors for the benefit of society.

The SOFT Innovation Prize rewards outstanding achievements in fusion energy research showcasing opportunities of valorization in the sector. It is intended for researchers and/or industrial actors who find new solutions, possibly with wider applications, to the challenges of fusion.

SOFT stands for Symposium on Fusion Technology—the name of  conference where the prize is awarded. Following the success of the previous editions, the European Commission is holding the contest again in conjunction with SOFT 2024 (23-27 September 2024, Dublin, Ireland).

There are no specific categories for this prize. Participants are free to submit an application concerning any physics or technology innovation that has been developed in magnetic confinement fusion research and that has market potential or has been taken up (or recognized) by industry to be further developed for the market.

Entries will be assessed on originality and replicability, technical excellence, economic impact, exploitation, and plans for further development. Proposals are studied by an independent jury composed of experts in technology transfer, from business and academia.

The deadline to submit applications has been extended to 15 February 2024. See further details on the SOFT Prize website.

At the Korea Institute of Fusion Energy (KFE), the KSTAR tokamak recommenced operations in December after a major upgrade to replace the device's carbon divertor with a tungsten divertor.

According to an article on the KFE website, the original carbon divertors could take a thermal load of 5MW/m², whereas the tungsten divertor can take 10MW/m². The upgrade is critical to the goal of sustaining a 100-million-degree plasma for 300 seconds by 2026. Data from the operational campaign will be directly relevant to ITER, which will operate a tungsten divertor under similar plasma conditions in terms of shape and structure.

This testing campaign will continue through February 2024. Read more about the plans in this article in English on the KFE website, or in Korean in the Chosun Biz.

From a UKAEA press release on 20 December 2023.

Some 40 and a half years after its first pulse on 25 June 1983, JET delivered pulse number 105,842 on Tuesday 18 December 2023.

UKAEA Chief Executive Officer, Prof Sir Ian Chapman, who was in attendance in JET's control room for the final plasma experiment, said: "This is the final milestone in JET's 40-year history. Those decades of research using JET by dedicated teams of scientists and engineers have played a critical role in accelerating the development of fusion energy."

JET's final day of plasma continued to push scientific boundaries, firstly attempting an inverted plasma shape for the first time at Culham before deliberately aiming electrons at the inner wall to improve understanding of beam control and damage mechanisms. The findings of these experiments will support the development of ITER.

JET will now move on to the next phase of its life cycle in early 2024 for repurposing and decommissioning, which will last until approximately 2040.

JET was operated at the Culham Centre for Fusion Energy as a Joint Undertaking of the European Community between 1977 and 2000, with the Euratom Research and Training program contributing approximately 80 percent of JET operation costs through 2021. Under the operation of the United Kingdom Atomic Energy Authority (UKAEA) since 2000, JET was used by 4,800 EUROfusion consortium experts, students and staff from across Europe.

--The JET control room on the day of final plasma experiments. Photo: UKAEA/EUROfusion

On Thursday 14 December, join in for Episode #2 of the IAEA Fusion Energy Webinar Series. "Fusion Energy at COP28: A promising emerging climate solution" will address the growing momentum worldwide behind fusion as a climate solution, as evidenced most recently at the COP 28 climate summit in Dubai.

Adam Danilowicz, of the IAEA, will moderate a panel with distinguished guests:

Scott Hsu, Senior Advisor and Lead Fusion Coordinator Office of the Under Secretary for Science & Innovation, US Department of Energy

Tim Bestwick, Chief Development Officer and Deputy CEO, United Kingdom Atomic Energy Authority 

Stephanie Diem, Assistant Professor, Department of Engineering Physics at the University of Wisconsin-Madison

Andrew Holland, Chief Executive Officer of the Fusion Industry Association

See all information at this address.

On Tuesday 12 December, from 10:30 to 11:45 in the morning (GMT), the JET tokamak team will be hosting a special *LIVE* YouTube show direct from the JET control room. 

JET operation ends this week with final plasma shots planned on 14 and 15 December. Join the team to look back over 40 years of research on JET and look ahead toward the future of fusion. The agenda includes a talk on "What's made JET special"; a discussion about achievements at JET; an interview with Tony Donné from EUROfusion; and a discussion on the next steps in fusion.

Participants can ask their questions by chat during the live stream. See all information here.

Have you written a fusion-related Master's thesis in 2023? Then you can participate in the FuseNet Master Thesis Prize 2023!

To stimulate excellence in fusion research, FuseNet would like to award several students for outstanding Master's theses that were carried out in Europe or in collaboration with international institutions.

Nominations for this Master's thesis prize can be made through the FuseNet website at the link below. Please make sure that the submission is agreed with your institution and its FuseNet contact person. Only one submission per FuseNet member institution is allowed. The submission deadline is 1 February 2024.

See all information on the FuseNet website.

Félicie Albert, Director of the Jupiter Laser Facility at Lawrence Livermore National Laboratory (LLNL) in California, delivered a guest lecture on 4 December 2023 to several hundred members of the ITER community. She returned to the achievement of fusion ignition at the National Ignition Facility in December 2022—a first-of-class milestone that had reverberated around the world and that has been replicated several times since—and brought the audience up to date on future plans for the facility.

"The National Ignition Facility has not yet reached its full potential; we have many plans for the future," she said. Increasing the energy of the laser, achieving more routine implosions of the deuterium-tritium target, and sustaining the facility through the maintenance and replacement of components are all on the list. As for the longer-term prospects of designing and building a fusion power plant based on laser technology (inertial fusion), she described the many scientific and technological challenges that would have to be overcome.

Director Albert also took time to describe other laser facilities at the Lawrence Livermore National Laboratory where research activities are underway to investigate particle acceleration in laser-driven plasmas as a way to generate x-rays that have unique properties and that can be used for non-destructive examination of materials or the probing of matter in extreme conditions.

Félicie Albert is a Fellow of the American Physical Society (APS) and the recipient of numerous awards including the APS Katherine E. Weimer Award (2017) and the Presidential Early Career Award for Science and Engineers (2019).

After dedicating their careers to fusion power development, five recently retired engineers have launched an educational website, Facts About Fusion, that is designed to make the intricate world of fusion energy understandable and engaging for everyone.

Bill Spears, Federico Casci, Werner Gulden, Antonino Cardella, and Lorenzo Virgilio Boccaccini set out to give "a grounded view of the requirements, aims, and variety of fusion power development, highlighting the achievements so far, the current status, and the steps still needed to reach an acceptable solution."

What sets this site apart, according to its authors, is its objective viewpoint. "While the authors are knowledgeable and experienced in the field of fusion, their retirement status allows them to offer a neutral perspective that complements existing fusion project websites. This unique vantage point enhances the website's goal of fostering a better-informed public."

Click to visit Facts About Fusion.

See this introductory article by Bill Spears published on the EUROfusion website.

Join the ITER Organization at the United Nations Climate Change Conference, COP28, in Dubai from 30 November to 12 December. You can find the ITER pavilion in the Blue Zone, B7, Building 88, on the second floor. Follow us on social media to stay abreast of the dynamic series of talks, panel discussions and events planned around fusion energy.

On Tuesday, 28 November, the World Nuclear Exhibition will open its doors at Paris Villepinte, and the ITER Organization will be there to hold up the fusion flag. Come and see us at our exhibition booth AE140. On Thursday, 30 November, 11.30-12.00, we will also present upcoming business opportunities in a special workshop in Room 3.

See all information about the World Nuclear Exhibition here.

Global technology solutions provider NTT Corporation (Japan) and the ITER Organization are planning joint experiments on predicting anomalies in ITER plant facilities. The early detection of anomalies and failures can reduce equipment downtime and increase the efficiency of the ITER Tokamak's operational phases.

NTT's artificial-intelligence (AI) powered anomaly prediction technology "DeAnoS" (for Deep Anomaly Surveillance) will be used to understand the normal status of selected ITER plant equipment, to detect faults, and to predict anomalies. The ITER Organization has already provided some operational data from the cooling water system to set up this ambitious collaboration, and will scale up with data from other equipment in the years ahead.

These experiments result from a Cooperation Agreement signed with NTT in 2020.

See the press release issued by NTT here.

In the fifth installment of ITER Japan's manga series on the project, our hero Taiyô Tenno visits the Gyrotron Test Facility at the Naka Fusion Institute where eight ITER gyrotrons were manufactured and tested. Taiyô learns about the synthetic diamond windows that were developed over 30 years of R&D and that allow strong microwave pulses to pass through to the plasma without cracking.

The virtual tour of ITER construction has been updated with high-definition 360° photos from October 2023. Enter the main ITER plant buildings or the machine assembly theatre to see what has changed since the last update in January 2023.

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below.

Click here to enter the latest 360° ITER virtual tour.

On Friday 3 November, ITER Director-General Pietro Barabaschi took part in a panel discussion on nuclear fusion organized as part of the Berlin Science Week. 

Moderated by Sakura Pascarelli (Scientific Director, European XFEL), "Nuclear fusion for a decarbonized future" featured:

— Pietro Barabaschi, Director-General, ITER Organization (keynote)
— Masaya Hanada, Director General, Naka Fusion Institute Japan
— Steven Cowley, Director, Princeton Plasma Physics Laboratory, USA
— Piergiorgio Sonato, President, RFX Consortium, Italy
— Hartmut Zohm, Head of Tokamak Division, MPI-IPP, Germany

After describing project status, Director-General Barabaschi commented on how ITER is contributing to the world fusion research program. "Fusion is an innovation program ... it's not just one project. [...] We see now a renaissance of fusion around the world. A lot of private investment interest, a lot of companies, a lot of opportunities for young people. [...] A lot of new ideas will come up and I believe that ITER can provide some support. [...] Others may learn from what we are doing; it's part of our job I believe."

You can watch a replay of the public event at this address.

The Europe/Japan team at the JT-60SA tokamak in Naka, Japan, succeeded on 23 October 2023 in producing a tokamak plasma for the first time.

The team issued the following statement: 

"This is a major achievement by the teams involved in the operation of the biggest experimental fusion device to date using magnetic confinement. The result will be carefully examined as the teams will continue to perform more tests during the next weeks. This will culminate on 1 December when the newly built fusion research facility will be officially inaugurated in Naka in the presence of delegates from Japan and Europe. Stay tuned for further updates!"

See the press release in Japanese issued by Japan's National Institutes of Quantum Science and Technology (QST) and the article published by the European Domestic Agency, Fusion for Energy.

The IAEA's World Fusion Outlook aims to be the global reference for authoritative information and updates on fusion energy.

The IAEA has been promoting fusion energy research and development for over 60 years, and it continues to strongly support R&D and future deployment by bringing the fusion community together to create solutions for both scientific and technological challenges. This first issue of the publication outlines achievements in fusion energy; its safety, security, safeguards, nuclear law and liability challenges; as well as the role of the IAEA.

Download the full report from the IAEA website here.

The introduction to the IAEA World Fusion Outlook 2023 is available in Arabic, Chinese, French, Russian, and Spanish here (scroll down the page).

The 29th IAEA Fusion Energy Conference (FEC 2023) is taking place next week in London. In-person registration has closed, but remote participation is possible. Follow the instructions on this page to register for virtual attendance.

Registered virtual attendees will be able to follow all the technical sessions of the conference online via the IAEA conference and meetings app. (Consult the preliminary program here.)

The 29th Fusion Energy Conference (FEC 2023) aims to provide a forum for the discussion of key physics and technology issues as well as innovative concepts of direct relevance to the use of nuclear fusion as a future source of energy. It is organized by the International Atomic Energy Agency (IAEA) through the United Kingdom Atomic Energy Authority (UKAEA).

Fusion researchers are constantly challenging the scientific state of the art and improving the technology. This drive lay the basis the conditions for innovation, much of which can be exploited in other sciences and industrial sectors for the benefit of society.

The SOFT Innovation Prize rewards outstanding achievements in fusion energy research showcasing opportunities of valorization in the sector. It is intended for researchers and/or industrial actors who find new solutions, possibly with wider applications, to the challenges of fusion.

SOFT stands for Symposium on Fusion Technology—the name of  conference where the prize is awarded. Following the success of the previous editions, the European Commission is holding the contest again in conjunction with SOFT 2024 (23-27 September 2024, Dublin, Ireland).

There are no specific categories for this prize. Participants are free to submit an application concerning any physics or technology innovation that has been developed in magnetic confinement fusion research and that has market potential or has been taken up (or recognized) by industry to be further developed for the market.

Entries will be assessed on originality and replicability, technical excellence, economic impact, exploitation, and plans for further development. Proposals are studied by an independent jury composed of experts in technology transfer, from business and academia.

The deadline to submit applications is 16 January 2024. See further details on the SOFT Prize website.

Are you currently a fusion or plasma physics Master's student, or are you starting a Master's during the next academic year? Are you looking for an opportunity to meet the community and learn more about studying for this field? Then the FuseNet Master Event 2023 is the place for you.

The third edition of the FuseNet Master Event will take place on Tuesday 23 November 2023. The event will be held fully online on the Gathertown platform. All master's students in fusion-related fields are invited to join the event. The event will interest to both students who are just getting started in fusion, and students who are graduating. 

More information on the program can be found on the registrations page. See you there!

The EUROfusion consortium for the realization of fusion energy has awarded ten Bernard Bigot Researcher Grants (ERG) to talented post-doctoral researchers across Europe. The ERG grants enable early-career researchers to develop innovative ideas and techniques to advance EUROfusion's Roadmap to Fusion Energy.

The EUROfusion Bernard Bigot Researcher Grants program, named after the third Director-General of the ITER Organization, supports excellent scientists at the post-doctoral level in their career development. The ERG grants cover part of the salaries of the selected candidates and part of the cost of their research activities and missions for a duration of up to two years.

Read all about the ten awardees on this EUROfusion webpage.

The Union for the Mediterranean (UfM) is an intergovernmental organization that brings together 43 countries to strengthen regional cooperation and dialogue through specific projects and initiatives that address inclusive and sustainable development, stability and integration in the Euro-Mediterranean area.

On 3 October in Barcelona, Spain, UfM and the European Union co-organized the Euro-Mediterranean Conference on Science Diplomacy, with the aim of highlighting the state of science diplomacy in the Mediterranean as well as obstacles and opportunities. More than 80 people from 22 countries attended, including scientists, diplomats, and research and innovation officials.

ITER, as an example of science diplomacy, was invited to take part. The ITER Project was represented by Marc Lachaise, director of Fusion for Energy (the European Union organization managing Europe's contribution to ITER), who participated in a panel discussion on research infrastructure. 

See the press release issued after the event here.

After bringing the magnetic coil systems of JT-60SA to superconducting temperatures in July 2023, energization—the process of running current through the magnets—has begun.

The toroidal field coil system (18 D-shaped coils) was put through a series of tests in August to verify that the system's quench detection and protection circuits were working optimally and that the current could be safely increased. Now, tests have begun on the tokamak's six ring-shaped equilibrium field coils, with limited voltages and currents at the start to avoid unnecessary risk.

Read more about JT-60SA commissioning activities on this website.

"The world we live in today [has] demands for clean energy outstripping supply. This has made clean sources of energy, such as fusion, of increasing interest to policymakers, investors and the wider public. In principle, fusion could generate four times more energy per kilogram of fuel than fission and nearly four million times more energy than burning oil and coal. The current level of international commitment to this clean source of energy is bringing us closer to fusion energy.

So begins the 800-page Fundamentals of Magnetic Fusion Technology published this month by the International Atomic Energy Agency, IAEA. The high-level text book is written for graduate students focusing on fusion technology, as well as for established plasma physicists and others working in the field and requiring a comprehensive overview. 

"Over the coming decades fusion R&D will shift from being science-driven and laboratory-based towards a technology-driven, industry-based venture. Significant innovation is and will be required [...]. Furthermore, the transition will focus on technologies and standards associated with the 'nuclearization of fusion' which has consequences for the required competences of the workforce. The main objective of this publication is to contribute to the consolidation and better exploitation of the achievements already reached in the past to tackle the present challenges in preparing the workforce in the different areas, with special attention to continuous professional development and life-long learning."

Download or order your copy from the IAEA website.

The European Southern Observatory (ESO) is an intergovernmental organization that designs, constructs and operates powerful ground-based observing facilities for astronomy. It currently operates three unique world class observing sites in the Atacama Desert region of Chile and is building the Extremely Large Telescope, which will be the largest optical/near-infrared telescope in the world. 

Professor Xavier Barcons, the Director General of ESO, was a guest on site at ITER on Friday 15 September. After exchanges with management and an extended tour of the worksite, he delivered a guest lecture to hundreds of members of the ITER community who were present in the amphitheatre or logged on remotely.

"What we can say, to start, is that we both work with plasmas, although many orders of magnitude apart in size," said ITER Director-General Pietro Barabaschi in his introduction of Professor Barcons. "And there are other things that we share—we are delivering research infrastructures at the frontier of science and technology, we are unique in our fields, and we face common challenges not only in engineering and technology ... but also in procurement, administration and staffing issues such as diversity. Beyond the pleasure of welcoming Professor Barcons today, we also hope to find areas where we can assist one another."

You can learn more about the European Southern Observatory here.

Do you want to be more involved in the promotion of fusion education in Europe? Do you have ideas on how to make the fusion scientific community bigger? Do you want to give input as a student to FuseNet, the European Fusion Education Network? 

The FuseNet Student Council is a separate advisory body in which Master and PhD students from member institutions across Europe convene and provide input to the Board of Governors. Members of the Student Council take part in Work Packages, and they are responsible for the organization of the FuseNet Master Event. The Student Council convenes predominantly online but also has at least one live meeting each year at the FuseNet PhD Event.

All current Master and PhD students affiliated with a FuseNet member institution are welcome to apply. Member terms are one year with the possibility of a one-year extension.

The deadline is 10 October 2023. See all information here.

After designating 2022 as the "International Year of Basic Sciences for Sustainable Development (IYBSSD)," the United Nations (UN) General Assembly has now proclaimed 2024 to 2033 as the "International Decade of Sciences for Sustainable Development (IDSSD)," acknowledging the imperative to "create bridges accross scientific disciplines and knowledge forms in order to address the complex and intricate challenges of our time."

Recognizing that developing countries face specific challenges in accessing new sciences and technologies, the resolution—proposed by Argentina, Cuba, Equatorial Guinea, Guatemala, Honduras, Hungary, Serbia, South Africa, Spain and Vietnam—proclaims the International Decade of Sciences for Sustainable Development represents "a unique opportunity for humanity to use the critical role that sciences play in the pursuit of sustainable development in its three dimensions as one of the key means of implementation as well as in responding to the complex challenges of our time to ensure a safe and prosperous future for all."

The ITER Organization is one of many scientific organizations that supports the IYBSSD.

Read the UN declaration in English here.

The technical program of the 28th International Conference on Magnet Technology (MT-28) will kick off in Aix-en-Provence, France, on 11 September 2023. Interest has been high, with nearly 1,000 registered participants and extensive paper submissions. Plenary talks, topic sessions, short courses and an industrial exhibition are all on the schedule.

Registration is still available on line through Tuesday, 5 September.

For members of the press, please contact Sabina Griffith (sabina.griffith@iter.org) to be kept abreast of the planned press event.

JET, the Joint European Torus in Culham, Oxfordshire (UK), has just kicked off a third and final campaign in deuterium and tritium. The planned experiments, known as "DTE3," will run for seven weeks and focus on plasma science, materials science, and neutronics.

This campaign comes just 20 months after JET demonstrated sustained fusion over five seconds at high power and set a world record. In June, JET celebrated 40 years of science.

JET's research findings have been critical to planning at ITER, as well as to that of the UK's prototype fusion powerplant STEP, the European DEMO prototype fusion plant, and other national laboratory and private projects around the world.  

Repurposing and decomissioning activities on JET are scheduled to begin in 2024. 

See the announcement on the UKAEA/Culham Centre for Fusion Energy website.

For the third year in a row, the Department of Physics at the Technical University of Denmark (DTU) has held its Fusion Energy Summer Camp for high school students.

19 participants aged 16 to 19 got to work as researchers and conduct experiments on DTU's small, and Scandinavia's only, NORTH tokamak. From early morning to late evening, from 30 July to 4 August, they followed lectures, practiced problem solving and programming in fusion energy and plasma physics, and participated in experiments, while also having fun and getting a taste of university life on campus.

The DTU Physics teams thanks the Novo Nordisk Foundation for its generous support in helping to inspire the young generation to consider an education in science and engineering and be part of the push to develop a sustainable future.

--Søren Bang Korsholm, Senior Scientist, and Alexander Simon Thrysøe, Scientist at DTU Physics.

Photo: Students are introduced to the NORdic Tokamak device (NORTH) that is enriching the physics and engineering programs at the Technical University of Denmark. Credit: Magnus Møller 

The transition to superconducting has been observed in the JT-60SA's central solenoid and toroidal field magnets, according to reporting by the team.

Superconductivity is a natural property of certain metals, alloys and ceramics when cooled below a defined "critical temperature." Below the critical temperature—which varies for each material—electrical resistance drops to zero, allowing these materials to carry large amounts of electrical current without losing energy.

JT-60SA's central solenoid is wound from niobium tin (Nb3Sn) cable-in-conduit conductor, which in the absence of any magnetic field becomes superconducting at about 18 K (-255°C). Early on 22 July the four modules of the central solenoid reached this temperature and the resistance of the magnets dropped to almost zero. The superconducting transition for the tokamak's 18 toroidal field coils and 6 equilibrium field coils (made from niobium titanium (NbTi) cable-in-conduit conductor) occurred at about 9 K (-264°C) on 24 July.

The JT-60SA tokamak is a joint program of fusion research and development agreed and co-financed by the European Atomic Energy Community (Euratom) and the government of Japan.

See the full report on this JT-60SA webpage.

The sixth and last episode of Season 2 of The ITER World is now available.

"Narrating A Giant" caps off the season by interviewing ITER Head of Communication Laban Coblentz. What public information strategy should be followed for this project that has so many complex layers of science, engineering, technology and politics? How to sustain interest in a project that spans decades? How to combat misconceptions? 

Listen to the latest episode directly on the ITER website or through Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, or Tune In.

Physicist Hartmut Zohm from Germany's Max Planck Institute of Plasma Physics (IPP) invites ITER's Head of Science, Alberto Loarte, to discuss the recent technical setbacks at ITER and plans for recovery. 

What are the specific problems and solutions? How will the setbacks affect full-power operation? Is scientific planning affected? Is the delay for repair also an opportunity in some areas to modify strategy? In what ways does ITER remain a "teaching" device?

The 17-minute talk "Nuclear Fusion: Problems at the ITER Research Project and Current Solutions" is available in English and German.

RAZOR, CGTN Europe's science and technology show, has published a 27-minute episode on the ITER Project.

Host Neil Cairns takes the viewer into some of the most interesting spaces of the ITER site, including the cathedral-like Tokamak pit, the gargantuan Assembly Hall and ITER Headquarters where staff from 35 nations are collaborating to "recreate the Sun's energy" on Earth. Through interviews with workers, managers and staff, the documentary captures the ambition of ITER and the gamechanging nature of fusion. "It's like when humans learned how to use fire," says one of the Chinese consortium members involved in machine assembly. "This is the second fire of humans in our history."

Watch "Are we any closer to recreating the Sun's energy at ITER?" on the RAZOR Science YouTube channel here.

The Fusion Industry Association has released its third annual survey of private fusion enterprises around the world.

The fusion industry continues to grow globally, with 13 new entrants, USD 1.4 billion (EUR 12.5 billion) in fresh funding, and nearly 1,000 direct jobs (+3,000 in the supply chain) created.

Private fusion initiatives exist in Australia (1), Canada (1), China (2), France (1), Israel (1), Italy (1), Germany (3), Japan (3), New Zealand (1), Sweden (1), the United Kingdom (3), and the United States (25).

These fusion companies are also benefitting at times from public money, as governments seek to spur innovation through public-private partnerships.

The companies participating in the survey spoke of their optimism about delivering fusion power to the grid, although "challenges remain."

You can download "The Global Fusion Industry in 2023" from this page on the Fusion Industry Association website.

Offering unsurpassed hardness, broad band optical transparency, and extremely high thermal conductivity, synthetic diamonds are the material of choice for 60 small windows that offer access to the machine for the high-frequency electromagnetic waves of ITER's electron cyclotron heating system, yet ensure a tight vacuum boundary.

The European Domestic Agency for ITER, Fusion for Energy, has procured 60 synthetic diamond discs through the German firm Diamond Materials. Now they must be polished, optically inspected, and finally joined with the diamond window unit through brazing.

See the original story on the Fusion for Energy website for all the details.

The second edition of the Fusion for Energy Contracting Professionals Roundtable took place at ITER Headquarters from 26 to 28 June 2023. The event, organized in collaboration with the International Nuclear Law Association (INLA) and the ITER Organization, focused on innovative legal thinking for successful fusion megaprojects.

During the three-day event, participants worked together to discuss and develop conditions for the successful delivery of fusion megaprojects. Themes such as contract strategies, forms of contract, nuclear liabilities, export control, insurance, competition law, public procurement law, intellectual property law and the regulation of fusion technologies were at the centre of the discussions. Approximately 300 participants from 20 countries took part.

See this report on the Fusion for Energy website.

The JT-60SA tokamak—a joint program of fusion research and development agreed and co-financed by the European Atomic Energy Community (Euratom) and the government of Japan—has officially restarted operations, according to news posted to the JT-60SA website. 

On 30 May 2023, the team kicked off vacuum pumping operations to evacuate particles from the vacuum vessel and cryostat. Leak testing of the cryostat, cryostat helium pipes and vacuum vessel followed, before steps were taken to initiate magnet cooldown. The cooling of the JT-60SA magnets has been underway since 14 June and is proceeding steadily; you can follow progress on this webpage.

JT-60SA has been designed to support the operation of ITER by following a complementary research and development program, and to investigate how best to optimize the operation of fusion power plants that are built after ITER. Further details of its experimental program are explained in the JT-60SA Research Plan. During device commissioning in 2021, a short circuit at the terminals of one of the machine's largest poloidal field coils resulted in a period of assessment, analysis and repair. The restarting of the device is excellent news for the integrated project team and for the fusion community as a whole.

In the latest episode of ITER Stories (Season 2, Episode 5), hear what it's like to move from abroad for the ITER Project ... from the point of view of five ITER spouses.

In "ITER Spouses, A Journey of Transformation," Mansi, Joke, Moon-Jeong, Zijin and Pieter speak about their experiences moving to Provence to support their spouses and their voyage into the ITER World. From raising children, to learning the ropes of living in Provence, rebuilding identities, and taking life into their own hands, they share thoughts that may be interesting to families who are considering a move to ITER in the future, other expats, or the simply curious.

Listen to the latest episode directly on the ITER website or through Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, or Tune In.

The 2022 Report on Human Resources offers the most recent snapshot of the human element of ITER. Who is behind the engineering, the science, and the day-to-day management and administration of the world's largest research collaboration?

ITER Organization staff grew by 3.3% in 2022 over the preceding year, reaching 1,069 members. European staff members represent 69% of the 2022 total, while staff from the six other Members is distributed as follows: China 8.1%, India 2.4%, Japan 3.6%, Korea 6.1%, Russia 7.2% and the United States 3.4%. Staff joined the project from all ITER Members in 2022, with the Human Resources Department fielding 3,098 applications for 111 newcomer recruitments. Of total appointments in 2022, 12.3% were women.

Just over 77% of ITER staff members have an advanced degree (Master's, engineering degree, or PhD). Women represent 18.6% of the staff body, and hold 9% of management positions. The average age of all staff is 45.3 years old (43.9 years for women, and 45.6 years for men). In 2022, global turnover was 7%, with 73 departures.

Nearly 80% of staff choses to live in either Aix-en-Provence (pop. 147,000) or Manosque (pop. 23,000), two of the larger towns in the ITER environment, and 75% have at least one dependent child. Nearly 70% of staff were rewarded in 2022 for performance, and 19.3% were promoted through contract renewal.

See all this granular detail and more in the 2022 ITER Organization Report on Human Resources here.

Besides attending an ITER Open Doors Day, the best way to familiarize yourself with the ITER construction project is to watch our latest drone video. It takes you in and out of the buildings on site—including the tall Assembly Hall where ITER's some of ITER's largest components are viewable—and flies far overhead for an update on the latest site infrastructure achievements.

Watch it on the ITER website or YouTube.

The Energy Subcommittee of the US House Committee on Science, Space and Technology held a hearing on fusion energy on Tuesday 13 June 2023. 

Titled "From Theory to Reality: The Limitless Potential of Fusion Energy," the hearing focused on how this "history-changing energy source" is progressing from scientific experiment to commercial reality. 

Invited to speak before the Subcommittee members were: Kathryn McCarthy, Director, US ITER Project Office; David Kirtley, CEO, Helion Energy; Wayne Solomon, Vice President, Magnetic Fusion Energy, General Atomics; Andrew Holland, CEO, Fusion Industry Association; Scott Hsu, Senior Advisor and Lead Fusion Coordinator, US Department of Energy.

You can watch the full hearing in replay at this address (starts at 44:45).

For your wall at home or in the office! Download an annotated photo of the ITER site—part of the annual ITER Planet brochure, featuring descriptions in English and French. Or, see this page of the ITER website for all the latest ITER Organization publications.

Download the ITER Planet brochure here.

Registration for the 28th International Conference on Magnet Technology (MT-28) is open on line through 5 September 2023 on the conference website.

See all fee information here, including reductions for retired participants, students and one-day attendees. The registration fee includes access to the exhibition, all technical sessions, all poster sessions, and receptions.

The conference will take place in Aix-en-Provence, France (only 30 minutes from the ITER site) from 10 to 15 September 2023. ITER site visits will be organized.

To register to MT-28, see this link.

From a survey of 26 private fusion companies and 34 supplier companies, the Fusion Industry Association—a US-registered non-profit independent trade association for the acceleration of the arrival of fusion power—predicts a huge growth in demand for fusion suppliers over the coming years. 

Its report The Fusion Industry Supply Chain: Opportunities and Challenges calculates that from USD $500 million in 2022, the fusion supply chain is set to increase to over USD 7 billion by the time companies build their first-of-a-kind power plants. When the fusion industry reaches maturity, the supply chain is predicted to be worth trillions of dollars.

Seventy percent of fusion companies surveyed, however, said their suppliers see building the capacity to meet future demand as too risky without committed orders. "It is clear more long-term certainty is needed—through a mix of finance, regulation, risk-sharing mechanisms, and more communication—so suppliers are prepared to scale ahead of industry need."

Read the full report on the Fusion Industry Association website.

The International Year of Basic Sciences for Sustainable Development (IYBSSD), in partnership with UNESCO, is taking place this year on 5 June.

Agenda 2030 for Sustainable Development is the ambitious program that the Member States of the United Nations have agreed on to ensure a balanced, sustainable and inclusive development of the planet.

Basic sciences have an important contribution to make to the implementation of this program. They provide the essential means to meet crucial challenges such as universal access to food, energy, health coverage and communication technologies. They enable us to understand the impact of the currently nearly 8 billion people on the planet and to act to limit, and sometimes even to reduce it: depletion of the ozone layer, climate change, depletion of natural resources, extinction of living species.

Applications of technology are easy to recognize. On the other hand, contributions of basic, curiosity-based, sciences are not well appreciated. They are nonetheless at the basis of major technological advances that stimulate innovation, as well as essential for training future professionals and for developing capacity of populations who can take part in decisions that affect their future. UNESCO is well aware of this: its Recommendation on Science and Scientific Researchers, revised in 2017, recalls the importance of bringing together politicians, scientists, diplomats, international organizations, entrepreneurs and every goodwill person.

The International Year of Basic Sciences for Sustainable Development, that we organize in 2022 and 2023, focuses on these links between basic sciences and the Sustainable Development Goals. This is a unique opportunity to convince all stakeholders that through a basic understanding of nature, actions taken will be more effective, for the common good.

ITER Head of Communication Laban Coblentz will be delivering a talk on "The ITER Project: collaborating on basic science for a new energy future" at 18:30 Paris time (CET).

Click here for the livestream. See all information about the IYBSSD event here.

Episode 4 of The ITER World, ITER's second podcast miniseries, is now available.

What do a 14 year old in the south of France, a robot competition, and a scientist at a pioneering nuclear fusion experiment have in common? The love for coding and human collaboration!

In "ITER Robots: Connecting as Humans," host Kruti Mawani Fayot joins middle and high school students at the annual ITER Robots event, where they compete with Lego-based robots that have been designed and programmed to complete ITER-like handling tasks.

Listen to the latest episode directly on the ITER website or through the following channels: Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, and Tune In.  

Visit the podcast page of the ITER website for all Season 1 and Season 2 episodes.

Join fellow fusion PhD candidates from all over Europe in August in Lausanne, Switzerland!

The annual PhD Event organized by the European Fusion Education Network, FuseNet, will take place this year at the École Polytechnique Fédérale de Lausanne (EPFL).

From 23 to 25 August, meet and greet fellow fusion researchers. The event will feature high-profile keynote speakers, a top-notch scientific program and the much anticipate PechaKucha contest, where students present their research in 20 slides, 20 seconds per slide.

See all information here. Register before 14 June 2023.

Listen to physicist Hartmut Zohm from Germany's Max Planck Institute of Plasma Physics (IPP) as he addresses what in his view are the five most common misconceptions about fusion research: 1) Fusion energy is always 30 years away; 2) With the money flowing into fusion research right now, a fusion power plant can be built in 10 years; 3) Using alternative fuels circumvents all the challenges; 4) Your Q values are not correct; 5) In fusion research, every success is a breakthrough.

The 20-minute talk""5 Myths About Nuclear Fusion" is available in English and German.

Episode 3 of The ITER World, ITER's second podcast miniseries, is now available.

"Falling for Fusion" features interviews with two young fusion enthusiasts who explain how they came to find out about fusion science and technology, how they joined the effort to increase the visibility of this very active field of research, and where they think fusion fits into the future.

Listen to the latest episode with host Kruti Mawani Fayot directly on the ITER website or through the following channels: Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, and Tune In.  

Visit the podcast page of the ITER website for all episodes.

The European Consortium for the Development of Fusion Energy, EUROfusion, has launched a call for 2024 EUROfusion Engineering Grants. These grants provide funding for up to twenty outstanding early-career engineers to conduct research projects starting in the first half of 2024. The EUROfusion grant will cover their salaries under the EUROfusion funding rules as well as contribute to their research activities and missions for the duration of two years.

EUROfusion encourages young engineers who are passionate about fusion research to apply for this opportunity. To be eligible, candidates must currently hold a Master's degree in engineering and have finished their degree within six years preceding the submission deadline. Interested candidates should jointly prepare their application with a EUROfusion consortium member or affiliated entity, who will submit the application and offer to employ the candidate for the proposed duration of the project.

Interested candidates are invited to attend the EUROfusion Training and Education Office's Q&A Information Session on Wednesday, 24 May 2023, at 14.00 CEST (connection details can be found on the EUROfusion wiki pages or requested by emailing EEG24application@euro-fusion.org).

The submission deadline is 5 June 2023. For all information, see these pages.

During the weeks of 5 to 15 June 2023, the Princeton Plasma Physics Laboratory (PPPL) will host a intensive virtual course on plasma physics and fusion energy sciences, taught by world-renowned scientists from various US and international institutions. The course is targeted at undergraduate students interested in plasma physics and fusion energy science and is open to the public at large.

Registration is free and participants who attend the full course will receive a certificate of completion.

The introductory course will be fully conducted via Zoom, and in half-day sessions (12PM-5PM EST) in order to accomodate various time zones.

The content will reflect the broad research under the fusion energy sciences and plasma physics umbrella, including discovery plasma sciences, magnetic fusion energy, fusion materials and technology, and high energy density plasmas.

See all information here.

The third edition of "Education Boot Camp," organized by the Indian Youth Nuclear Society (IYNS) and Shiv Nadar School, Noida, attracted 2,000 participants from the Delhi region, from grade 5 through university. The goal? To raise awareness about sustainable development and climate change.

Over one month, participating students were asked to develop ideas to tackle the environmental challenge of their choice, and present them at the two-day culminating event on 20-21 April. Team Swachh Bin from the Shiv Nadar School won first prize with a project on waste management. 

Nintendra Singh, founder and president of the IYNS, founding board member of Women in Nuclear India (WiN-India), and current ITER Project Associate in the Tritium Breeding Blanket Section, was satisfied with the dedication and enthusiasm of the students. "The event was an excellent opportunity for students to learn and connect with industry experts and academia, and to connect with peers. The idea that it is necessary to find local—and innovative—solutions to global issues was very well assimilated."

Shira Tabachnikoff, Internal & Stakeholder Relations Manager at ITER and co-chair of the Women in Fusion network, participated in panels on women in STEM (science, technology, engineering, mathematics) and shared the status of the ITER Project with students in high school and university.

The INFUSED pages of the ITER Organization website are the place to go for students and teachers interested in educational resources in fusion science and technology. The resources have been developed all over the world, and are offered in many languages and formats.

At this time of year, it is also good to keep an eye on the INFUSED event calendar, where deadlines are fast approaching for summer training opportunities, specialized courses, and postdoctoral research grants.  

At the top of this page, click on "View all upcoming events" to see a list of opportunities through November. Click on the titles to find out more about application procedures and deadlines.

And for organizers, you can contact ITERCommunications@iter.org if you don't see your training opportunity listed in INFUSED.

Join fellow fusion PhD candidates from all over Europe in August in Lausanne, Switzerland!

The annual PhD Event organized by the European Fusion Education Network, FuseNet, will take place this year at the École Polytechnique Fédérale de Lausanne (EPFL).

From 23 to 25 August, meet and greet fellow fusion researchers. The event will feature high-profile keynote speakers, a top-notch scientific program and the much anticipate PechaKucha contest, where students present their research in 20 slides, 20 seconds per slide.

See all information here. Register before 18 June 2023.

Episode 2 of The ITER World, ITER's second podcast miniseries, is now available.

"Visiting Planet ITER" takes the listener into the heart of ITER's assembly activities, where visitors from France, Thailand and the Netherlands are discovering the project and sharing their views about ITER's goals and nuclear fusion energy overall. Kirsten Haupt, from the ITER visits team, lifts the veil on the popular ITER visitor program that attracted approximately 20,000 people last year, and nearly 200,000 since it started in 2007.

Listen to "Visiting Planet ITER" with host Kruti Mawani Fayot directly on the ITER website or through the following channels: Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, Tune In and World Radio Paris.  

Visit the podcast page of the ITER website.

The new JT-60SA International Fusion School (JIFS), jointly funded and organized by Japan's National Institutes for Quantum Science and Technology (QST) and EUROfusion, aims to prepare the next generation of fusion physicists and engineers from Japan and Europe by focusing on the main aspects of fusion research, from plasma physics to engineering, with special attention to their combination into tokamak operation.

School attendance is limited to 20 students—10 from Japan and 10 from Europe. The two-week program in Japan will include lectures, visits to JT-60SA, and practical exercises using JT-60SA laboratories and JT-60SA data, analysis and computational tools.

The first JT-60SA International Fusion School will take place from 4 to 15 September 2023. Registration ends 15 April 2023. For all information see this page.

The European Consortium for the Development of Fusion Energy, EUROfusion, has launched a call for applications for the next round of EUROfusion Bernard Bigot Researcher Grants, which will fund up to ten outstanding early-career researchers for research projects starting in the first half of 2024. The grants will cover their salaries and part of the cost of their research activities and missions for up to two years.

To be eligible, candidates must currently hold a PhD and have defended their doctoral thesis within the two years preceding the submission deadline. Interested candidates should jointly prepare their application with a EUROfusion consortium member, who will submit the application and offer to employ the candidate for the proposed duration of the project.

Interested candidates can join the EUROfusion Training and Education Office's Q&A Information Session on Wednesday, 19 April 2023, at 14.00 CET.

Further details on the overall procedure and the information session are provided on this website. The submission deadline is 28 April 2023.

--The Researcher Grants are named after Dr Bernard Bigot, Director-General of the ITER Organization from 2015 to 2022.

The European Commission, Directorate-General for Energy, has published the "Foresight study on the worldwide developments in advancing fusion energy, including the small scale private initiatives."

Commissioned from the consultancy Trinomics, the paper provides an analysis of the leading public and private fusion initiatives globally and uses the analysis to generate four foresight scenarios for fusion development to inform European Commission decision making on fusion.

What are the strengths and weaknesses of various fusion approaches? When can the next fusion devices be expected? What are the most optimistic and least optimistic estimations for the arrival of fusion power on the grid? What technical challenges remain? 

The 113-page document can be consulted free of charge at this link. (© European Union, 2023)

It's the Holy Grail for limitless clean energy, but will nuclear fusion come soon enough to avoid the worst of the climate crisis?

As part of the Bloomberg series The Future with Hannah Fry, follow Episode 4, "Can Nuclear Fusion Power the Future?" as Hannah visits the ITER Project in southern France, checks in with an expert at Imperial College London on the economics of fusion, and flies to Los Angeles to witness a new generation of private start-ups racing to put fusion energy on the grid. 

Her hosts at ITER are Richard Pitts, head of the Experiments & Plasma Operation Section, and Sabina Griffith, from Communication.

Watch "Can Nuclear Fusion Power the Future?" here. Browse all episodes here.

Join Ian Bonnett, ITER's Tritium Plant Section Leader, for a deep dive into the hydrogen isotope tritium—its particular characteristics, and how it will be used and recycled at ITER as part of a closed fuelling loop. A dedicated Tritium Plant at ITER contains all of the systems and sub-systems needed for safe tritium management.

Watch the eleventh episode of the ITER Talks here.

See the full ITER Talks playlist on YouTube.

Registration for the 28th International Conference on Magnet Technology (MT-28) is open on the conference website beginning today, 13 March 2023.

See all fee information here, including reductions for retired participants, students and one-day attendees. The registration fee includes access to the exhibition, all technical sessions, all poster sessions, and receptions.

The conference will take place in Aix-en-Provence, France (only 30 minutes from the ITER site) from 10 to 15 September 2023.

To register to MT-28, see this link.

The ITER World, ITER's second podcast miniseries, debutes this week for International Women's Day with Episode 1: "The Women at ITER." It is available directly through the ITER website or through the following channels: Amazon Music, Apple Podcasts, Google Podcasts, PodBean, Spotify, Tune In and World Radio Paris. 

Season 1 of the ITER podcast, All About ITER, took a look at what nuclear fusion is and how one of the largest, most complex science experiments on Earth is taking shape in the south of France.

Season 2 begins to orbit this world in order to understand its multifaceted inhabitants, their motivations and challenges. From hearing about their love for fusion, to meeting some of the women involved or gaining a first-hand perspective on what it's like to be a part of this extraordinary, once-in-a-lifetime global project. Six episodes are planned, with host Kruti Mawani Fayot.

See the podcast page of the ITER website.

The Fusion Centre for Doctoral Training (CDT) and the UK Atomic Energy Authority (UKAEA) have worked with the fusion community to prepare a two-week program created to meet the needs of the emerging fusion industry and associated supply chain companies and organizations.

The Fusion Industry School is a two-week interactive program of lectures from world-leading experts in fusion, aimed at providing an overview of the current progress and challenges to industry professionals. The school consists of lectures, networking sessions, panel discussions and Q&As as well as visits to the UKAEA national fusion facilities.

The first week (19-22 June 2023) takes place in York (UK) and focuses on the underpinning fusion science and technology. The second week (25-28 September 2023) in Oxfordshire (UK) builds on the first week, with more of an emphasis on engineering applications. The program is optimized for delegates attending both weeks, but there is still benefit to only attending one. No prior knowledge of fusion science and technology is necessary.

The target audience is: early and mid-career scientists, engineers and regulators.

See all information on the CDT website.

Women in Fusion—the one-year-old global platform established to highlight the role that women play in advancing cutting-edge research and technology in fusion and to promote networking and advocacy—has launched a new initiative: mentoring.

By connecting mentors with mentees, the Women in Fusion program aims to support women with backgrounds in science, engineering, legal or administration in all aspects of their career development, including goal setting, leadership, and work/life balance. Expand your network and foster your career growth as a mentee, or grow your leadership skills and assist an early-career professional as a mentor.

All details are available on this page of the Women in Fusion website.

The 60th Culham Plasma Physics Summer School will take place from 17 to 27 July 2023 at the Culham Science Centre in Oxfordshire (UK).

The aim of the Summer School is to provide an introduction to the fundamental principles of plasma physics, together with a broad understanding of its fields of application. It assumes no previous knowledge of the subject, but familiarity with electromagnetism and applied mathematics at first degree level would be helpful.

The 2023 school will cover fundamental plasma physics, as well as important topics in fusion, astrophysical, laser and low temperature plasmas. Lecturers are drawn from the Culham Centre for Fusion Energy (CCFE), the Rutherford Appleton Laboratory (RAL) together with leading European universities. All are renowned experts in their fields.

For more details and to apply visit the dedicated website. The deadline for applications is 19 June 2023.

Visit the exhibition and sponsorship pages of the MT-28 website to find out more about participating as a company or an academic partner in this premier international forum for magnet-related technology and design. 

The 28th International Conference on Magnet Technology (MT-28), planned in Aix-en-Provence, France, during the week of 10 to 15 September 2023, is a unique opportunity to reach the superconducting magnet community, industry, and students and researchers. Multiple exhibition and sponsorship opportunities are available.

For all information, see the MT-28 website.

The European Domestic Agency for ITER, Fusion for Energy, seeks to reward the commercial use of fusion technologies in non-fusion markets. Its Technology Transfer Award 2023, open to European companies and organizations, comes with a prize of EUR 10,000.

The Technology Transfer Award competition aims to encourage and promote projects where a fusion technology or know-how is used or is planned to be used outside of fusion applications.

Applications will be evaluated according to the resources and efforts deployed by the candidate to achieve commercial use of the technology in a non-fusion market, as well as the socio-economic impact of the project on the market. 

Applications are open from 1 February 2023 to 19 May 2023 at this link.

Under the patronage of H.R.H. Prince El Hassan Bin Talal of Jordan, the Al Hussein Technical University cordially invites you to a join a webinar that it is organizing on 8 March 2023.

The webinar, titled "Towards an Arab Initiative for Fusion Energy," will feature speakers Tim Luce, Chief Scientist at ITER; Prof. Tony Donné, CEO of EUROfusion; Prof. Sir Steven Cowley, Director of the Princeton Plasma Physics Laboratory (PPPL); and Andrew Holland, CEO of the Fusion Industry Association.

Scan the QR code on the poster at right or click here to sign up.

The 28th International Conference on Magnet Technology (MT-28) will be held in Aix-en-Provence, France, during the week of 10 to 15 September 2023. The scientific program of MT-28—the preeminent international forum for magnet-related technology and design—will cover fusion, high-energy physics, power engineering and medical diagnosis. 

The deadline for submitting abstracts has been extended to 6 March 2023.

Don't miss the opportunity to submit your abstract now!

Organized every two years by CEA Cadarache (France) and the Institute of Nuclear Physics PAN (Poland), the PhDiaFusion Summer School of Plasma Diagnostics is designed for graduate students and their tutors in the spirit of a "master and apprentice" approach.

Diagnostic measurements are essential in plasma experiments to infer the relevant plasma properties, both for physical interpretation and for real-time control. In modern fusion devices such as ITER, DEMO, or the DONES neutron facility, the huge amount of generated data may require fast and efficient processes to infer the physical quantities with a reasonable computational cost. The use of artificial intelligence can be of a great help to achieve this goal by feeding learning systems with experimental data and/or simulation results.

The 2023 edition of the PhDiaFusion Summer School will cover diagnostics data processing, interpretation, validation and real-time control aspects with a focus on artificial intelligence methods.

Join us for the next edition of PhDiaFusion from 19 to 23 June 2023 on the topic of "Artificial Intelligence for Plasma Diagnostics and Controlled Fusion." 

Register on line by 15 May 2023. See all information on this page. 

With a ceremonial event on 10 February, Commonwealth Fusion Systems (CFS) officially opened its new 50-acre campus in Devens, Massachusetts (USA). 

The campus is home to the company's corporate headquarters, an advanced manufacturing facility, and the building dedicated to SPARC—a compact 100 MW magnetic confinement fusion experiment now under construction.

CFS spun out of MIT's Plasma Science and Fusion Center as a private company in 2018 and is backed by more than $2 billion from the world's leading investors in clean energy.

Attending the event on campus were US Secretary of Energy Jennifer M. Granholm, US Senator Elizabeth Warren, US Senator Edward Markey, and US Representative Lori Trahan, Massachusetts Lieutenant Governor Kim Driscoll, with other state and local leaders.

See the full news story here.

The virtual tour of ITER construction has been updated with 360° photos from January 2023. Enter the main ITER plant buildings or the machine assembly theatre to see what has changed since the last update in April 2022.

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below.

Click here to enter the latest 360° ITER virtual tour.

The Governing Board of Fusion for Energy (F4E), the European Joint Undertaking for ITER and the Development of Fusion Energy, has appointed Marc Lachaise as Director.

Carlos Alejaldre, Chair of the F4E Governing Board, thanked all delegates for their cooperation and congratulated Marc Lachaise on their behalf. "We look forward to working with you in order to lead Europe's contribution to ITER, and its participation in various fusion projects aiming to demonstrate the full potential of this energy source."

Trained in engineering, Marc Lachaise worked for 27 years as part of the French EDF Group (Électricité de France), where most recently he was Deputy Head of Department for Nuclear Procurement (2015), then Contract Manager Director of the EDF Group (2018), and Supply Chain Control Director in the newly formed assurance function for the EDF New Build nuclear projects (2021).

"It is an honour to be appointed Director of Fusion for Energy and I promise to lead this organization and its staff with commitment, integrity and a truly collaborative spirit. During my career I have worked in the field of energy, building experience on management, supply chain, and big nuclear projects. I'm ready to offer my expertise to the fusion community because I'm truly convinced of its potential. The responsibility bestowed on me is also an opportunity to honour Europe's contribution to ITER, empower teams, and collaborate with our partners to deliver ITER."

Read the full report on the Fusion for Energy website.

"Science and technology have the potential to solve some of the most critical issues of our time, to improve our lives, and to inspire our curiosity about the world around us." 

This conviction, from the Franklin Institute's mission statement, animated the production of the Institute's new six-part documentary series, "The Road to 2050," where some of the world's top innovators take the viewer on a journey of exploration into the future, covering everything from environmental challenges to off-world expansion and the exciting possibilities of jetpacks and teleportation. 

Shira Tabachnikoff, ITER's Internal & Stakeholder Relations Manager, features in part two of the docuseries: "Act 2: Energy of the Future." Moving toward a world that is increasingly electrified, new, cleaner sources of energy will be needed. Fusion is one of the potential solutions, and minds around the world are working to make it happen. 

Access the full series on YouTube at this address.

(The 200-year-old Franklin Institute is a centre for science education and development located in Philadelphia, Pennsylvania.)

 

To stimulate excellence in fusion research, the European Fusion Education Network FuseNet awards the Master Thesis Prize to students who write outstanding Master's theses that were carried out and completed across Europe. The prizes serve as an acknowledgement of the excellent and important research that is carried out by fusion students.

The application period has been extended to 10 February 2023. To nominate your best students of the past year, please fill out the submission form at this address. 

For more information about the Master Thesis Prize 2022, see the FuseNet website.

Worth watching: two recent TEDx talks featuring fusion and ITER.

In the first, "Why should we make a star on Earth?" EUROfusion's Tony Donné, explains the advantages of fusion--a baseload source clean and safe energy, power dense, requiring only small amounts of fuel and a small footprint for reactor construction, and without any long-lived radioactive waste. He touches on recent accomplishments in the field and the large numbers of industrial spinoffs that have already resulted from investment in fusion research.

In the second, "Entering the Fusion Energy Delivery Era," JET's Head of Operations Joe Milnes outlines a bright future for fusion, taking the audience from recent milestones in the fusion world to the turbo-charged current state of play and his hope for a fusion future, where all countries can build reactors based on fuels that are accessible to all. What are the breakthrough technologies that will help us access fusion electricity? What challenges still remain?

The 28th International Conference on Magnet Technology (MT-28) will be hosted by the ITER Organization and the French Alternative Energies and Atomic Energy Commission (CEA) in Aix-en-Provence, France, during the week of 10 to 15 September 2023. 

The MT-28 Local Organizing Committee (LOC) team has planned a dynamic student program to make MT-28 a moment to remember for all participating students. There are grant opportunities, short courses and workshops, best paper awards, recruitment and career opportunities, and fun extracurricular events.

See this page for a description of all student events and opportunities.

And a reminder to all: abstract submission is open now through 20 February 2023.

In Fusion Power: How Close Are We?, Simon Mundy from the Financial Times introduces his viewers to the quest for fusion energy, described as "one of the hottest and most controversial topics within the push for clean energy."

Through interviews with scientists, engineers and investors in the United Kingdom, the United States and France—including Director-General Pietro Barabaschi, Head of Science Tim Luce, and Postdoctoral Fellow Valentina Nikolaeva from ITER—Mundy captures the growing enthusiasm for the potential of fusion energy, as national labs reach milestones and investment in the field from both public and private sources is growing.

Watch the 28-minute documentary here.

The International Atomic Energy Agency (IAEA) organizes regular webinars focusing on the latest breakthroughs and landmark achievements announced in fusion R&D. The series aims to give an overview and put in perspective ground-breaking results, to understand how such progress brings fusion energy closer to realization.

In the next episode (#4) on 19 January 2023, experts from the US DOE Lawrence Livermore National Laboratory (LLNL) National Ignition Facility (NIF) will present results from its recent historic fusion breakthrough—scientific energy gain for the first time in a fusion experiment.

Follow this link to register.

The Instituto de Plasmas e Fusão Nuclear (IPFN) invites applications for its Doctoral Program in Plasma Science and Engineering, APPLAuSE, from eligible candidates by 3 February 2023 (for a September 2023 start, full time).

Successful applicants, up to a maximum of three, will benefit from a four-year doctoral scholarship supported by the Portuguese Foundation for Science and Technology. The official language of APPLAuSE is English.

For more information and to apply, see this IPFN webpage.

The 28th International Conference on Magnet Technology (MT-28) will be held in Aix-en-Provence, France, during the week of 10 to 15 September 2023. Abstract submission is open through 20 February 2023.

For the first time in four years, the MT-28—the international forum for magnet-related technology and design—will bring participants together in person. The conference offers all participants increased networking opportunities and interactive sessions.

The lead areas of the scientific program are fusion, high-energy physics, power engineering and medical diagnosis. In addition to plenary debates we offer opportunities for exchanges with industries and for career management. An industrial exhibition, an active program for students, as well as opportunities to visit the nearby ITER site will round out the event.

Don't miss this opportunity to submit your abstract now!

The MT-28 Local Organizing Committee
(mt28@iter.org)

Applications are open through 15 February 2023 for the next wave of the FUSION-EP Master's program (September 2023 start). Scholarships are available to top-ranked candidates. 

The ideal candidate has, or is in the process of obtaining, a Bachelor's degree or recognized equivalent (minimum 3 years of study, 180 ECTS or more) in physics or engineering (nuclear, materials, chemical, electrical). Students from all countries can apply. The program language is English.

The FUSION-EP program aims to train the next generations of magnetic confinement fusion physicists and engineers. It offers high-level, multinational, research-oriented education in fusion-related engineering or physics in close relation to the research activities of the partners, including the ITER Organization.

More information about the program can be found on the dedicated website. To apply, click here.

The International Atomic Energy Agency (IAEA) has just released its 2022 worldwide survey of public and private fusion devices that are currently in operation, under construction or in the planning stages.

The publication, which lists just over 130 devices/projects, is intended to complement and further elaborate on the IAEA's online database, the Fusion Device Information System (FusDIS). Together, they provide a global overview of fusion research and development activities from the perspective of device capabilities.

Download the pdf of the "World Survey of Fusion Devices 2022" or order a printed copy at this address.

The ITER Organization has opened its 2023 internship program with the publication of 66 offers on the ITER website. These opportunities are geared toward undergraduate and postgraduate students, with a broad array of topics across scientific, technical and support departments. Applicants must hold a passport from one of the countries participating in the ITER Project (the People's Republic of China, the European Union, India, Japan, the Republic of Korea, the Russian Federation and the USA).

See this page to apply before 15 February 2023 (or 1 January 2023 for internships beginning in Q1 2023).

There are many ways to promote ITER and to reach out to the general public: Open Doors Days, site visits, exhibitions, conferences, publications, press interviews...

The year 2022 saw all of the above in terms of ITER Organization outreach, and one newcomer was added to the list—an outdoor exhibit at a rest stop on highway A51 north of the ITER site.

Organized in a circle, five large exterior panels tell the story of fusion energy and ITER through written and interactive content (through QR codes). For the thousands and thousands who travel the road heading north toward the Alps, it is a reminder that the region is home to a major international scientific collaboration that is building the world's largest tokamak. 

The exhibit was inaugurated on 12 December in the presence of the local authorities, representatives for Vinci Autoroutes (highway) and Argedis TotalEnergies (service station), and Head of the ITER Engineering Domain Alain Bécoulet.

--Left to right: Damien Laffon de Colonges, Vinci Autoroutes Director, south-east region; Jerome Dubois, Mayor of Volx; and ITER Alain Bécoulet.

Registration is open now for the 12th ITER International School, which will be held from 26 to 30 June 2023 in Aix-en-Provence, France.

Hosted by Aix-Marseille University, the 2023 school will address a particularly timely and multidisciplinary topic—"The Impact and Consequences of Energetic Particles on Fusion Plasmas." Plasma self-heating by fusion-born alpha-particles, the influence of energetic particles on stability, how to diagnose energetic particle transport and loss, and the understanding of runaway electrons are all part of the planned scientific program.

Click here to see the School website and for further information about registration.

--Cutting-edge predictive simulation with the ORB5 code [T. Hayward-Schneider] showing a fast ion driven instability (n=12 Toroidal Alfvén Eigenmode) in ITER.

The 28th International Conference on Magnet Technology (MT-28) will be held in Aix-en-Provence, France, during the week of 10 to 15 September 2023. Abstract submission is open now through 20 February 2023.

MT-28 is the major international forum for magnet-related technology and design. Conference aims are threefold: to diffuse into the scientific community information about new applications for magnets; to encourage an exchange between research activities and industrial applications; and to encourage professional scientists and engineers to follow careers in magnets. It will be supported in 2023 by the fusion project ITER, with opportunities to visit the nearby ITER site and see the huge ITER superconducting magnets in various stages of manufacturing and assembly.

The foundation of the conference remains the scientific program, with conference presenters having the opportunity to submit papers to a special edition of the prestigious IEEE Transactions on Applied Superconductivity (impact factor > 1.9). 

Please see this website for abstract submission.

Follow the RAI team as it discovers the ITER Project through the eyes of three Italian members of ITER staff: Federico Forunato, a Section Leader in the Field Engineering Installation Division; Mario Merola, Head of the Plant Construction Department; and Sergio Orlandi, Head of the Engineering Design Department.

The 4-minute feature "Fusione nucleare," which aired on the RAI2 TV show Re Start on 21 November 2022, can be seen in replay at this address.

 

Thesis supervisors are invited to nominate a student for the 2022 FuseNet Master Thesis Prize by 1 February 2023.

FuseNet will award the prizes to students who write outstanding Master's theses that were (at least partially) carried out and completed across Europe. The prizes serve to highlight the important research that is carried out by dedicated and talented fusion students.

See more about the 2021 winners here.

Learn more about the nomination process on the FuseNet website.

The ITER community gathers on 2 December around the Christmas tree offered by ITER's neighbours and hosts, the town of Saint-Paul-lez-Durance. At the foot of the tree is the Provençal crèche, with the traditional nativity scene plus figures that depict village life such as The Mayor, The Lace-Maker, The Apothecary, and the Shepherd (bowing into the fierce Mistral wind). A tree has been delivered to the ITER Organization by the town of Saint-Paul-lez-Durance for 11 consecutive years—ever since ITER Headquarters opened in 2012.

--From left to right: Eisuke Tada, Deputy of the Director-General; Romain Buchaut, Mayor of Saint Paul; and Laban Coblentz, Head of Communication.

EUROfusion grant programs aim to promote the education and training of a new generation of scientists and engineers in the fusion field.

EUROfusion Engineering Grants (EEG) are open to early career engineers within three years after their Master or PhD (or six years if relevant professional (industry) experience can be demonstrated). They enable selected candidates to specialize in a EUROfusion-relevant engineering topic.

EUROfusion research grants (ERG)—now renamed the EUROfusion Bernard Bigot Researcher Grants in honour of the former ITER Director-General—are attributed at postdoctoral level or equivalent to develop innovative ideas and techniques to advance EUROfusion's Roadmap to Fusion Energy.

The results of the latest campaign have just been announced by EUROfusion, with a total of 22 beneficiaries.

Click to read about the awardees under the EEG and ERG programs.

The JT-60SA tokamak—a joint program of fusion research and development agreed and co-financed by the European Atomic Energy Community (Euratom) and the government of Japan—could restart cooldown operations and coil energization as early as March 2023, according to an article published by Fusion for Energy (Barcelona), the implementing agency for Euratom.

In 2021, a short circuit at the terminals of one of the machine's largest poloidal field coils had necessitated a pause in commissioning and a thorough assessment and analysis. One year of repair and further testing is now behind the joint Japan-Europe team, and plans are being laid for the restart of commissioning and possible first plasma next year.

See the full report on the Fusion for Energy website. 

ITER will procure the tritium fuel necessary for its research program from the global inventory. But the fusion power reactors of the future will have to produce all of the tritium fuel they require for operation from within their own vessels.

ITER's Tritium Breeding Module (TBM) Program, involving the ITER Organization and all seven ITER Members, is a research activity that will run in parallel to the main ITER research program. In this latest ITER Talk, Luciano Giancarli, head of the Tritium Breeding Blanket System Section, explains how ITER will provide a unique opportunity to test the feasibility of tritium breeding. 

First, he walks us through the principles behind tritium breeding—what a breeding blanket looks like, how to achieve it in principle, and in practice, and what are the potential candidates for breeding blanket materials. Next, he delves into the ITER TBM Program, which aims to test complete tritium breeding blanket mockups in reactor-relevant conditions. Space allocations in the machine and four initial TBM concepts have already been decided.

Finally, he describes the objectives of the test program and how they fit into the ITER Research Plan.

Watch the tenth episode of ITER Talks here.


See the full ITER Talks playlist on YouTube here.

The Japanese Domestic Agency has released a JAPAN Edition of the 2021-2022 ITER Organization photobook.

The main difference from the original? A significantly expanded gallery of manufacturing photos from Japan. See pages 76 to 90 for an idea of the broad expertise and knowhow that ITER Japan suppliers are bringing to bear in completing their commitments to the ITER Project.

Powerful gyrotron devices, robotic manipulators, advanced diagnostics, precise divertor targets, superconducting magnets ... view, or download, the JAPAN Edition of the 2021-2022 ITER Organization photobook here.

Tuesday 15 November was Energy Day at the COP27 in Sharm El-Sheikh, Egypt, and fusion was part of the discussion through a panel called "Fusion: Clean Energy for All" (UNFCCC Pavilion).

The one-hour discussion was hosted by Gabriela Hearst, Creative Director of Chloé, and moderated by Jane Hotchkiss of the NGO Energy for the Common Good. Invited panelists were: Tim Bestwick, Chief Technical Officer at the UKAEA; David Livingston, Senior Advisor in the office of US Special Presidential Envoy for Climate John Kerry; Jennifer Ganten, Chief Movement Builder at Commonwealth Fusion Systems (US); and Jessie Barton, Communications Lead at Helion Energy (US).

You can watch the full replay of the discussion here.

If you are a European company registered in a Fusion for Energy (F4E) member country, you can apply by 17 February 2023 to F4E's Technology Transfer Fusion Demonstrator Project Award.

The award (EUR 35,000) will go to a company that sees a use for its fusion technology outside of the traditional fusion market. 

In collaboration with In Extenso Innovation Croissance, Fusion for Energy seeks to unleash your entrepreneurial potential by helping you to carry out a project that integrates a fusion technology in a non-fusion application.

To read more about the requirements and guidelines, see this open call.

For more information about F4E's Technology Transfer Marketplace, click here.

For three days every year, the Falling Walls Science Summit in Berlin invites some of the most important researchers and thinkers of the day to discuss "Which are the next walls to fall in science and society?" with global leaders in science, politics, business, and the media.

During the 2022 edition, a panel titled "Advances in Fusion Technology/Breakthrough in Unlimited Energy Generation" was animated by Constantin Häfner, Managing Director of the Fraunhofer Institute for Laser Technology ILT; Peter Leibinger, Vice Chairman and CTO of TRUMPF (high-tech manufacturing solutions); ITER's Chief Scientist Tim Luce; and Vinod Philip, Member of the Executive Board of Siemens Energy. The discussion was moderated by plasma physicist Melanie Windridge, Founder of Fusion Energy Insights. 

The main takeaway of the 50-minute discussion was that fusion energy should no longer be considered a "technology of the future." Just as mature science is converging with increasingly powerful technologies such as AI and computer modelling, there is a real interest—and real investment—by governments and the private sector. It is a good time for industry to get involved, both from the point of view of helping to solve the technical challenges that remain and for the kind of long-term visionary bets that can help accelerate the emergence of a fusion industry.  

Replay the livestream of the event on the Falling Walls website here (from 6:26:50 to 7:18:16).

The 12th ITER International School will be held from 26 to 30 June 2023, hosted by Aix-Marseille University in Aix-en-Provence, France.

The subject of the 2023 school is "The Impact and Consequences of Energetic Particles on Fusion Plasmas" with a scientific program coordinated by Simon Pinches (ITER Organization). As the start of ITER operations approaches, it is timely to address this multidisciplinary topic that includes plasma self-heating by fusion-born alpha-particles, the influence of energetic particles on stability, diagnosing energetic particle transport and loss, and understanding runaway electrons.

Click here for further information on the 2023 school. Find out more about past schools here.

--Cutting-edge predictive simulation with the ORB5 code [T. Hayward-Schneider] showing a fast ion driven instability (n=12 Toroidal Alfvén Eigenmode) in ITER.

The European Commission's DG ENER (unit D4) has produced two new videos on ITER and fusion. The first (ITER - Technology) focuses on European Union investment in fusion over the years and explains the basic principles of fusion; the second (ITER - Ecology) showcases fusion as a possible future source of clean, efficient and reliable energy.

Watch ITER-Technology here.
Watch ITER-Ecology here.
See all language versions on this page.

The B1M, a popular video channel for construction, architecture and engineering, and the Nemetschek Group, a leading software providers for the same industries, named ITER as the Construction Story of the Year award on 2 November 2022 in Munich.

The expert judging panel was "particularly impressed by the extraordinary levels of collaboration between the construction team, and the scheme's propensity to inspire future generations of engineers."

"ITER is a remarkable project that impressively demonstrates what the construction industry is able to achieve. The team has come together collaborating across international borders working on a massive project scale inspiring this and future generations of engineers and all roles contributing to our built world. The project team has proven that working together knows no bounds—regardless of segment, trade or project size, amazing goals can be realized," said Don Jacob, VP Technology and Innovation, Build & Construct Division at the Nemetschek Group.

The Construction Story of the Year program aims to highlight the world's most impressive and inspiring construction stories, seeking out amazing projects, ideas or initiatives that show the best of the architecture, engineering, and construction (AEC) industry. It aims particularly to highlight innovation in the construction industry and projects that represent its digital transformation. 

Read press releases from The B1M and the Nemetschek Group.

See the video published about ITER by The B1M channel in April 2022.

--Jens Reich, Head of ITER's Vessel Delivery and Assembly Division (centre) at the ceremony in Munich on 2 November 2022, alongside The B1M founder Fred Mills (left) and Nemetschek's VP of Technology and Innovation, Build and Construct Division, Don Jacob (right).

The Princeton Plasma Physics Laboratory (PPPL) and the International Atomic Energy Agency (IAEA) recently signed an agreement to forge a partnership to strengthen education, training, and outreach programs in nuclear fusion research all over the world.

Steve Cowley, PPPL director, and Mikhail Chudakov, IAEA deputy director general and head of the Department of Nuclear Energy, signed the agreement at the 66th IAEA General Conference on Sept. 28 in Vienna.

The goal of the program is to help train the next generation of scientists, engineers and technicians who can contribute to develop fusion energy as a clean, green and plentiful source of electricity, Cowley said. The IAEA, which is based in Vienna, is the world organization for intergovernmental cooperation in the nuclear field, with 175 member states.

See the full announcement on the PPPL website.

 

The Arctic University of Norway (UiT) has joined the EUROfusion consortium as an associate partner.

UiT's dedicated plasma research centre in Tromsø, DYNAMO, has collaborated for years with European fusion labs on stand-alone projects. With UiT's associate membership comes an observer status in EUROfusion's decision making body and full access to the consortium's research data and facilities such as jointly operated fusion devices and computing centres.

See the full announcement on the EUROfusion website.

General Atomics, the American company that operates the DIII-D National Fusion Facility for the US Department of Energy, announced plans on 20 October 2022 for a steady-state, compact fusion power plant based on an advanced tokamak design.

According to Wayne Solomon, Vice President of Magnetic Fusion Energy at General Atomics, the company's practical approach to a fusion power plant (FPP) is "...the culmination of more than six decades of investments in fusion research and development, the experience we have gained from operating the DIII-D National Fusion Facility..., and the hard work of countless dedicated individuals. This is a truly exciting step towards realizing fusion energy."

The facility would utilize the company's proprietary Fusion Synthesis Engine (FUSE) to enable engineers, physicists, and operators to rapidly perform a broad range of studies and continuously optimize the power plant for maximum efficiency. General Atomics has also developed an advanced modular concept (GAMBL) for the breeding blanket which is a critical component (of the fusion power facility) that breeds tritium, a fusion energy fuel source, to make the fusion fuel cycle self-sufficient.

Read the full press release here.

The second edition of the FuseNet Master Event will take place on Tuesday 22 November 2022. The event will be held fully online on the Gathertown platform. All master's students in fusion-related fields are invited to join the event.

The day is filled with interesting talks by top scientists, introductions to fusion start-ups and ITER-related companies, and chances to meet your fellow students. Are you currently a fusion or plasma physics master student, or are you starting next academic year? Looking for an opportunity to meet the community and learn more about this fascinating subject? This event is for you.

More information on the program can be found on the registrations page. See you there!

"The ITER control system performs the functional integration of the ITER plant and enables integrated and automated operation."

With the ninth talk in the series, we have the opportunity to take a deep dive into a less familiar part of the ITER Project—integrated control. Without it, the vast plant and the machine itself couldn't operate. System by system, what are the requirements? How has the overall architecture been designed? What protocols are respected by the software? What special role for the safety control system? And finally, what is the status on site?

Anders Wallander—Head of the ITER Controls Division—is our guide to "the brain of ITER."

Watch the ninth episode of ITER Talks here.


See the full ITER Talks playlist on YouTube here.

 

The UK Atomic Energy Authority is accepting applications now through 16 December 2022 for its Fusion Research Fellowships. These aim to appoint outstanding scientists or engineers who have recently completed (or will soon complete) a doctorate to a two-year research fellowship in any field of fusion research. Fellowships start in summer of 2023 and can be based at either UKAEA's Culham or Rotherham site.

For more details and to apply, see https://careers.ukaea.uk/job/ukaea-fusion-research-fellow/.  Any queries, please contact Chris Warrick at chris.warrick@ukaea.uk. 

Following the appointment of Pietro Barabaschi as Director-General of the ITER Organization, the Governing Board of the European Domestic Agency Fusion for Energy (F4E) has appointed his replacement. Mr Barabaschi had been Acting Director of Fusion for Energy since June 2022. 

Jean-Marc Filhol is the new Fusion for Energy Director ad interim beginning 16 October 2022 and until the formal appointment of the new Director.

In thanking the members of the Governing Board for their trust, Jean-Marc Filhol highlighted his priorities for this interim period: "I will work together with the rest of the Senior Team to ensure a smooth operation of F4E and preserve a peaceful working environment for all staff, to support the new ITER Organization Director-General in the restructuring of the ITER project and the integration of ITER Organization and F4E, and to prepare the ground for the new F4E Director."

A French national, Mr Filhol has been with F4E since August 2011 and has occupied several senior management positions as Head of ITER Department and Head of ITER-Programme Department. In his role of European Domestic Agency representative in the ITER project since 2015, he has represented F4E to the ITER Organization and Domestic Agencies, in the Executive Project Board, and at other ITER governance bodies.

See the original report at Fusion for Energy.

On Tuesday 18 October 2022, the London Science Museum will host FUSION22: The World Needs Fusion Energy. This hybrid event, which can be attended on line or in person, will showcase the incredible developments taking place in fusion all over the world. 

Why do we need fusion energy? How will fusion change the world? What is the path to commercial fusion? What innovations are needed? What benefits from fusion R&D and spinoff technologies for your business? What does investing in fusion look like? (See the full agenda here.)

"Whether you're coming to fusion energy for the first time or have been involved in its development since the beginning, you'll find engaging, thought provoking and insightful sessions to fit your needs," say the organizers of the event. 

The event is free. See this website to register to attend on line.

The European Fusion Education Network, FuseNet, is organizing its third annual European Fusion Teacher Day on 14 October 2022. Open to all secondary school science and physics teachers in Europe, the fully virtual event aims to introduce educators to nuclear fusion and demonstrate how the subject can be taught in school. The ultimate goal is to increase exposure of students to the subject at the secondary level in order to spark interest and enthusiasm in the field.

Because the event is open to educators across Europe, the half-day program begins with local sessions via Zoom on what is going on in the field of fusion in your geographical zone. After the local sessions, participants will come together for a global livestream with presentations by keynote speakers and the distribution of free educational resources. The ITER Organization is one of the featured participants during the global livestream. 

Participation is free and registration is open now. Register before 1 October here.

On 19 September, the European Commission revealed the winners of the 2022 edition of the SOFT Innovation Prize. This prize, awarded at the 32nd Symposium on Fusion Technology (SOFT2022), gives recognition to outstanding researchers or industries who have found innovative ideas or proposed new solutions in fusion research.

This year's winners are:

First prize (€50,000): GRATUL (Karlsruhe Institute of Technology and Forschungszentrum Jülich) for the development of plasma sprayed, functionally graded tungsten/EUROFER coating as protective for the first wall of future fusion power plants. This technology was successfully transferred to industry, achieving a new record in coating large first wall mockups. The functional grading, which led to outstanding heat flux resistance, opens up the potential deployment of this innovation in other components of fusion technology, in high-voltage components, and in the concentrated solar power sector.

Second prize (€30,000): D1SUNED (Universidad Nacional de Educación a Distancia, UNED) for the development of an improved radiation transport code for dose rate evaluation in fusion application. Due to their high energy, fusion neutrons are penetrating deeply in the facility producing direct and indirect radiation fields whose evaluation is a challenging task. The D1SUNED provides a powerful tool to calculate and analyze these radiation fields required for safety and radioprotection studies that must be addressed properly during the design phase to secure successful licensing.

Third prize (€20,000): Dia Disk (Karlsruhe Institute of Technology and Diamond Materials GmbH) for the development of diamond window technology in high-power microwave applications as a vacuum barrier and confinement barrier for hazardous materials. The achieved higher disk diameter results in a substantially increased energy efficiency of the deposition process of diamond.

See the full announcement here.

On 15 September 2022, the US Senate Committee on Energy and Natural Resources held a "Hearing on the Federal Government's Role in Supporting the Commercialization of Fusion Energy."

The Chairman of the Committee, Senator Joe Manchin, had visited the ITER Project in France in March 2022. He opened the meeting by evoking the visit, saying that it left him "profoundly reflective of the potential of [fusion] technology to transform our energy future." The purpose of the hearing was to hear from a panel of experts on what they are doing to bring this "exciting technology" to fruition and to ask: What can the federal government do to help?

On the witness panel was: Dr Scott Hsu, Lead Fusion Coordinator, Office of the Undersecretary for Science and Innovation, Department of Energy; Professor Steven Cowley, Director, Princeton Plasma Physics Laboratory; Dr. Tim Luce, Chief Scientist and Head of the Science & Operation Domain at the ITER Organization; Dr. Bob Mumgaard, CEO and Co-Founder, Commonwealth Fusion Systems.

You can watch the archived webcast here.

You can access the testimony of Tim Luce here.

The 32nd annual Symposium on Fusion Technology (SOFT) has opened in the Croatian city Dubrovnik. 

The biennial symposium on fusion technology is the most important conference in the field in Europe, bringing together scientists, engineers, industry representatives and exhibitors from all over the world and focusing on the latest developments in fusion experiments and activities. SOFT includes invited, oral and poster presentations, as well as industry and R&D exhibitions.

SOFT 2022 is organized by the Ruđer Bošković Institute (RBI) from 18-23 September in a hydrid format. ITER's Alain Bécoulet, Head of the Engineering Domain, opened the first plenary session on Monday 19 September with a talk on the status of ITER procurement and assembly. During a satellite event in the afternoon, the SOFT 2022 Industry Day, numerous business opportunities in fusion for European industry were presented by representatives of the ITER Organization, Fusion for Energy (F4E), EUROfusion, and the Consorcio IFMIF-DONES España.

The ITER Organization is present throughout the week with the ITER stand. In this photo, the newly appointed ITER Director-General Pietro Barabaschi (right) is at the stand with Alain Bécoulet.

See the conference website for more about SOFT 2022.

Sergio Orlandi's mastery of Latin—a language he considers "more perfect than mathematics"—proved precious when, on 15 September, he was awarded an Honorary Professorship from the University of Life Sciences in Lublin, Poland.

In Poland, Latin is the language universities use in such circumstances. The Rector of the University pronounced his speech in Latin, Sergio's laudation was issued in Latin, and it is in Latin that the Head of the ITER Plant Construction Department responded.

What connects Sergio and the University of Life Sciences in Lublin is his experience in the nuclear field and his reflexion on sustainable energy as a member of the European Academy of Science and Arts, and as the Dean of the Academy's Technical and Environmental Science commission. His experience in the construction of Chernobyl's "sarcophagus" following the nuclear plant's 1986 accident, and also in the management of the liquid waste from the devastated reactors was also an important factor in the connexion between the nuclear engineer and the university. Lublin is located 600 kilometres from the site of the accident, and Poland is understandably quite concerned by the fallout that ensued.

In Lublin, switching from Latin to English, Sergio gave a talk titled "Flying into Nuclear Fission and Fusion Technologies in the Short and Medium Term." He will soon be back to Latin and to his favourite bedside book—Ovid's Metamorphoses.

School is back in session in France! And at the International School of Manosque, students in the Chinese Section are the beneficiaries of a new set of textbooks thanks to the generosity of the Chinese Domestic Agency, which shipped ten boxes of books and materials in time for the new school year.

Andrew Crusoe takes the listeners of the ASCENDANT podcast on site at ITER in August to explore the power and potential of fusion, and find out how ITER is posed "to create technology that will allow an abundance of clean, renewable energy."

ITER Communication's Sabina Griffith explains how interest in fusion got started, why it stalled after the oil crises of the 1970s, and why it is so important. Is fusion energy the key to our green, renewable future?

You can listen to the 45-minute podcast "Live at ITER: A Sun in a Bottle & The Way to Our Fusion Future" (ASCENDANT podcast 1:13) at this link.

Registration for the 15th International Workshop on Beryllium Technology (BeWS-15) and the 9th Industrial Forum on Beryllium Opportunities & New Developments (BeYOND-IX) closes this week on Wednesday 31 August. See this link for all information.

The workshops are organized by Kartlsruhe Institute of Technology and will be held in conjunction with the 32nd SOFT-2022, which is taking place in Dubrovnik, Croatia, from 18 to 23 September 2022 (https://soft2022.eu). Sessions on fusion blanket design, breeder/mulitplier materials, and risks and regulations are planned as part of the program.

See all information here.

On 3 August 2022, the last of 14 trucks of Russian electrotechnical equipment was delivered to ITER at the DAHER warehouse in Port-Saint-Louis-du-Rhône, where mid-sized components are stored pending their transfer to the ITER site.

The delivery included a large number of high-current DC busbars (photo), which provide power supply to the ITER magnet system superconducting coils and are designed for long-term flow of direct current at 55 kA. In addition, DC switches, energy-dissipating resistors, and elements of control and cooling systems were part of the shipment. All of the equipment is destined for one of ITER's most crucial systems—power supply, without which it would be impossible to reach First Plasma. 

The material represented the 25th delivery of electrotechnical equipment developed and manufactured at the Efremov Institute (NIIEFA) in Saint Petersburg on behalf of the ROSATOM State Corporation. The manufacturing is being carried out under the terms of the Procurement Arrangement for switching networks, fast discharge units, DC busbars and instrumentation, concluded in 2011 between the ITER Organization and Russian Domestic Agency. 

--ITER Russia

On Tuesday 18 October 2022, the London Science Museum will host FUSION22: The World Needs Fusion Energy. This hybrid event, which can be attended on line or in person, will showcase the incredible developments taking place in fusion all over the world. 

"Whether you're coming to fusion energy for the first time or have been involved in its development since the beginning, you'll find engaging, thought provoking and insightful sessions to fit your needs," say the organizers of the event. Events planned throughout the day include: "What Fusion Needs: Solutions To Technical Challenges,"How Will Fusion Make The Transition To An Industry?" and "The Energy Jigsaw: Where Does Fusion Fit Into The Future Energy Mix?"

The event is free. See this website to register.

--© Science Museum

 

The Big Science Business Forum (BSBF 2022) is a business oriented congress planned in Granada (Spain) from 4 to 7 October 2022. All the principal European research infrastructures will be present for a forum that aims to be the main meeting point between research infrastructure and industry.

This will be the second edition of the event after the success of the previous edition in Copenhagen, with more than 1,000 participants from 500 organizations and 29 countries in attendance.

Registration is still open at this address.

On 4 October, a side event—Woman in Science—will provide a platform where public organizations and industries operating in Big Science can share the experience, lessons learned and best practices on policies to increase the participation of women. It will also offer the participants a framework for networking.

The roundtable will conclude with the presentation of the Awards on Best Practices to recognize the efforts of companies and organizations toward improving gender equality in the work environment at different levels. To learn more about the award and modalities to apply, click here. The deadline is 18 September 2022 at 12:00 CET.

The French YouTuber and scientific populizer Dimitri Ferrière, alias Monsieur Bidouille, has published a second video on the ITER Project.

His first video, based on a three-day visit to the ITER worksite, introduced the project to over one million viewers in September 2021. This month, he is back with a video that reviews recent developments in the world of fusion, including startup projects, and compares their scope and ambition with ITER.

You can watch it (in French) on Monsieur Bidouille's YouTube channel here.

Fusion for Energy (F4E), the European Union organization managing Europe's contribution to ITER, is currently seeking to recruit a new Director.

The Director will be appointed as a member of staff of F4E for a period of five years, which may be extended once in accordance with the F4E statutes. The Director is the chief executive officer responsible for the day-to-day management of F4E and is its legal representative.

F4E manages the European contribution to ITER, and is also involved in three major fusion R&D projects stemming from the Broader Approach Agreement signed between Europe and Japan. The agency is currently staffed by approximately 440 employees and 400 external contractors.

Read the full announcement on the F4E website here.

Go straight to the vacancy notice here.

Investment in private fusion companies has more than doubled in the past year and eight new companies have been founded, bringing the total to around 33.

According to the global fusion industry 2022 Report, six companies have now each raised over $200m in total, with notable investments in the last year including over $1.8 billion for Commonwealth Fusion Systems and $500m for Helion Energy, allowing them to develop pilot plants to demonstrate fusion electricity.

The huge step up in investment, coupled with increasing government support for fusion in the U.K. and the U.S., is increasing confidence within the fusion industry.

Andrew Holland, Chief Executive Officer of the Fusion Industry Association, states in the report, "We must not see a 'competition' between publicly funded and privately funded fusion approaches; instead, we must build real partnerships [...] With investment accelerating, it is increasingly likely that commercial fusion will become a reality within the next two decades, providing the basis for prosperity, safety, and security for many years to come."

Photo: Commonwealth Fusion Systems and its SPARC project raised over $1.8 billion last year.

Read the full article in Forbes.

 

In advance of the delivery of the first European vacuum vessel sector this autumn, the European Domestic Agency Fusion for Energy has released a new series of photos from the European workshops in Italy where the sub-parts of five sectors are manufactured and assembled.

At Mangiarotti S.p.A (Monfalcone), see the final activities underway on sector #5, which will be the first to arrive. The four sub-segments have been welded into the final D shape and detailed inspections are underway.

At Walter Tosto S.p.A (Chieti), technicians on working on multiple sectors, performing welding, inserting in-wall shielding, and carrying out inspections.

And at Belleli Energy EPC (Mantova), one poloidal segment is shown in the radiographic testing bunker, while others are prepared for welding, or cleaned during final inspection.

Two EUROfusion grant programs aim to promote the education and training of a new generation of scientists and engineers in the fusion field.

EUROfusion Engineering Grants (EEG) are open to early career engineers within three years after their Master or PhD (or six years if relevant professional (industry) experience can be demonstrated). They enable selected candidates to specialize in a EUROfusion-relevant engineering topic.

EUROfusion research grants (ERG)—now renamed the EUROfusion Bernard Bigot Researcher Grants in honour of the former ITER Director-General—are attributed at postdoctoral level or equivalent to candidates who have defended their doctoral thesis in the two years preceding the submission deadline. Ten grants, for missions of up to two years, are foreseen for award every year.

Both calls are open until 13 September 2022. Applications should be submitted via one of the EUROfusion consortium members (acting as employing institute). See all details here.

See an article on the launch of the grants on the EUROfusion website here. 

Women in Fusion (WiF) is a new global platform for highlighting and encouraging the role of women in the field of fusion. This collaborative effort, driven by founding partners the International Atomic Energy Agency (IAEA), ITER Organization, Fusion for Energy (F4E), General Atomics and EUROfusion, seeks to increase and promote the participation of women in fusion science, research, engineering and operations.

Women in Fusion was established in 2021 after a successful webinar at the Fusion Energy Conference (FEC2020). The Women in Fusion website, which will go live at around midnight CET on 18 July, creates a space for sharing experience, networking and promoting events and policies aligned with the group's mission.

Visit the website and join this week.

The ITER Organization, in collaboration with colleagues from CEA Cadarache, is deploying advanced virtual reality tools that allow users to interact with objects inside of a real-scale simulation. Immersed in a virtual 3D environment, designers can detect clashes, carry out integration studies, and assess accessibility. Join Benoit Manfreo (Tokamak Integration Technical Officer) and Chiara di Paolo (ITER Project Associate) for a tour of the many possibilities.

See the video "Going deeper and deeper into virtual reality" on the ITER YouTube channel here.

The first in-person FuseNet PhD event in three years took place from 4 to 6 July in Padova, Italy, hosted by the University of Padova and Consorzio RFX. A full roster of 131 participants from 23 countries and 44 different institutes and universities took part.

The FuseNet PhD Event is the place where European fusion PhD students meet and interact with affirmed international fusion researchers, aiming to strengthen and expand the fusion research network.

This session's participants were able to tour the Consorzio RFX facilities, including the ITER Neutral Beam Test Facility and the reversed field pinch device RFX-mod2.

See the full news story on the FuseNet website.

Produced by the Microwave & Imaging Sub-Systems group of the French multinational Thales, which provides electrical systems and services for the aerospace, defence, transportation and security markets, this video describes the company's work to design and build radio frequency and microwave sources for the ITER Project.

The mastery of vacuum, high voltage and microwave technologies is critical to creating wave-generating sources of ITER's radiowave external heating systems. The company is bringing all of its expertise to bear to build the European-sourced gyrotrons of the electron cyclotron heating system and the tetrodes of ion cyclotron heating system and contribute to "a disruptive alternative" in the 21st century energy mix.

See "Radiofrequency and Microwave Sources for Fusion Energy" on YouTube. 

The first week of June, the European Physical Society (EPS) organized the EPS Forum for the first time. The aim of the conference, which took place at the Sorbonne University in Paris, was to connect young physicists with big science and industry.

No fewer than three Nobel Prize Laureates were among the speakers—Barry Barish, Serge Haroche and John Michael Kosterlitz—to present the latest developments in the fields of quantum technology, energy science, accelerators, high-energy particle and nuclear physics. The European Commissioner for Innovation, Research, Culture, Education and Youth, Mariya Gabriel, and the Vice-President of the European Research Council, Andrzej Jajszczyk, opened the EPS Forum on the first day.

As one of the first scientific speakers, Alberto Loarte, Head of the ITER Science Division, presented the physics basis of ITER and the status of the project. The interest showed by the young audience was enormous—as the steady traffic to the joint ITER/FuseNet booth proved.

One physics student from Macedonia, still undecided about his professional future, was so interested that he boarded the fast train from Paris down to Aix-en-Provence to see ITER with his own eyes.

For more impressions from the first EPS Forum click here.

A virtual workshop organized by the International Atomic Energy Agency (IAEA) on 11 and 12 July 2022 will bring together actors in the fusion community to discuss the commercialization of fusion energy.

What does market analysis tell us about the potential demand for fusion? What is fusion's place in the future energy mix? What steps remain to commercialization? What are the economic constraints?

Panels will also discuss recent trends in public and private investment, the enabling technologies that can accelerate deployment, and the incredibly dynamic fusion startup ecosystem. The ITER Organization's Taka Omae, Chief Strategist, will participate in Session 6 "Future Considerations" on Day 2.

Monday 20 June is the last day to register. See this page for all information.

"From a small hill in the southern French region of Provence, you can see two suns. One has been blazing for four-and-a-half billion years and is setting. The other is being built by thousands of human minds and hands, and is—far more slowly—rising. The last of the real sun's evening rays cast a magical glow over the other—an enormous construction site that could solve the biggest existential crisis in human history."

Follow journalist Boštjan Videmšek and photographer Matjaž Krivic as they take you through the science of fusion, the recent milestone at the JET tokamak, construction at ITER, and how fusion could become the "11th-hour hero" of the climate crisis.

See the article on the CNN website here.

The Second IAEA Technical Meeting on Plasma Disruptions and their Mitigation will take place at ITER Headquarters in Saint-Paul-lez-Durance, France, from 19 to 22 July 2022, hosted by the Government of France through the ITER Organization. (A virtual connection will also be made available.) 

The event aims to serve as a forum to help coordinate experimental, theoretical and modelling work in the field of plasma disruptions with special emphasis on developing a solid basis for possible mitigation strategies in ITER and next generation fusion devices.

It aims to bring together junior and senior scientific fusion project leaders, plasma physicists, including theoreticians and experimentalists, and experts (researchers and engineers) in the field of plasma disruptions.

See all information at this link.

Fusion can theoretically be achieved by several combinations of light elements such as hydrogen, helium or boron. However, in the present state of technology, the only fusion within our reach at industrial level is that of deuterium (D) and tritium (T), both isotopes of hydrogen. DT fusion however has one downside—it generates highly energetic neutrons that activate and alter the structures they bombard. (The good side of fusion neutrons is that they will be used to breed tritium from lithium inside the machine).

For decades, fusion physicists have pursued what is sometimes referred to as the "Holy Grail" of fusion: the fusion combinations that involve helium-3, which, instead of generating neutrons like in DT fusion, produce highly energetic protons. Advantages: no material activation or alteration and, protons being charged particles, the possibility of direct electricity generation (they can be manipulated by electric and magnetic fields). Downside: helium-3, which abounds on the Moon (hence the renewed interest for lunar exploration) is exceedingly rare on Earth.

Now, scientists at the University of California San Diego have discovered evidence that helium-3 could be much more abundant on Earth than previously known.

Led by Benjamin Birner, a postdoctoral scholar in geosciences, the team is developing tools and measurement methods to quantify the puzzling increase of helium-3 in the atmosphere, and understand where it could be coming from.

We might not need to go to the Moon, after all, to mine the fuels for second or third-generation fusion power plants.

Read the full story on Vice website.

Pre-register before 1 June 2022 for this year's ITER International School on the topic of "ITER Plasma Scenarios and Control."

This in-person event will be held from 25 to 29 July 2022 at the University of California San Diego, hosted by the U.S. Burning Plasma Organization, the ITER Organization, UC San Diego, and General Atomics.

Most attendees will be graduate students, post-doctoral researchers, and early career faculty and research staff working in fields relevant to the ITER program. Although the agenda will focus on topics of scenarios and control, attendees are not required to be working in these subfields. All nationalities, whether representing an ITER Member or not, are welcome.

To register, see this webpage.

The virtual tour of ITER construction has been updated with 360° photos from April 2022. Enter the main ITER plant buildings, fly over the worksite, and plunge 30 metres into the ITER Tokamak pit to see what has changed since the last update in September 2021.

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below.

Click here to enter the latest 360° ITER virtual tour.

The Financial Times channel FT Rethink produces multimedia content that focuses on "the people, technology, strategies and systems moving us from an economy that is wasteful, idle, lopsided and dirty towards one that is circular, lean, inclusive and clean."

In a video published on 21 April 2022, the channel turns its lens to nuclear fusion and its "enormous potential" as an energy source.

Join host Anjana Ahuja to learn more about fusion science, recent breakthroughs in the field, and growing interest from private investors in "Making the heart of a star power the world."

Registration is open now for the 11th ITER International School. This in-person event will be held from 25 to 29 July 2022 at the University of California San Diego, hosted by the U.S. Burning Plasma Organization, the ITER Organization, UC San Diego, and General Atomics.

The subject of this year's school is "ITER Plasma Scenarios and Control." As the start of ITER operation approaches, it is timely to address this challenging multidisciplinary topic: the development of integrated operating scenarios and required plasma control to facilitate the ITER goals, particularly for plasmas self-heated by fusion-born alpha particles.

Most attendees will be graduate students, post-doctoral researchers, and early career faculty and research staff working in fields relevant to the ITER program. Although the agenda will focus on topics of scenarios and control, attendees are not required to be working in these subfields. All nationalities, whether representing an ITER Member or not, are welcome.

The ITER International School is organized regularly with the goal of giving young scientists and engineers a taste of the stimulating, multi-disciplinary and challenging field that is nuclear fusion.

For all information on the 2022 edition and to register, see this webpage.

The B1M—the world's largest, most subscribed-to video channel for construction—aims to inspire people to join the construction industry by showcasing the incredible projects and feats of engineering it delivers.

In March 2022, the team came to ITER. The result is an entertaining and educational nine-minute video that takes you into the very heart of ITER machine construction. "This is so much more than just an energy project; it's a $22 billion science experiment between a whole host of nations all coming together to try and change how we generate power on this planet," says host Fred Mills as he guides the viewer through a maze of components and tooling in the ITER Assembly Hall.

Colette Ricketts, deputy head of the ITER Project Control Office, also makes a cameo appearance to explain how the arrival of components from the ITER Members is planned and managed ... and re-planned if necessary, as when international events have an unexpected effect on manufacturing or shipping.

"It's a pretty nuclear level of project collaboration," says the B1M team. "It's kind of like building a LEGO kit ... just 10 million times more complicated."

Watch "We Went Inside the Largest Nuclear Fusion Reactor" on YouTube here.

Donato Lioce, head of ITER's Tokamak Cooling Water System Section, describes the plant system that will remove heat from the ITER machine and in-vessel components as "absolutely unique."

One of its peculiarities is the sheer volume of equipment—which is absolutely huge compared to the cooling system in a nuclear fission plant. More than 6,000 tonnes of equipment, 43 kilometres of piping, 3,000 valves, heat exchangers, pumps ... all housed over the seven levels in the Tokamak Building. Another is the fact that the system is designed not only to cool, but also to heat: the same equipment that circulates cooling water can also circulate hot water to "bake" tokamak components before plasma operation, or hot gas to "dry" components before maintenance. The cyclical nature of the ITER machine, designed for 30,000 plasma pulses, also has repercussions for the design of the tokamak cooling water system and its hundreds of clients.

Follow along as Donato describes in detail the different functionalities of the ITER tokamak cooling water system, system equipment, and the procurement effort that is underway now.

Watch the eighth episode of ITER Talks here. 

See the full ITER Talks playlist on YouTube here.

 

 

On Monday 28 March 2022, the Chinese Embassy in France organized a ceremony in honour of the two French laureates of the 2020 China International Science and Technology Cooperation Award. Eight international scientists had been named during the National Science and Technology Award Conference held in Beijing in November 2021; due to the pandemic, the prize ceremonies are being organized by Chinese embassies.

Fusion expert Alain Bécoulet and French hematologist Jacques Caen received their awards from the hands of Ambassador Lu Shaye.

Alain Bécoulet is former director of the Institute for Magnetic Fusion Research (IRFM), part of the French Alternative Energies and Atomic Energy Commission (CEA), and current Head of the ITER Engineering Domain. In the course of his career, he helped to develop scientific collaboration between the Chinese and European fusion communities, particulary between the WEST project that he headed at IRFM and China's EAST tokamak. He has been a frequent visitor to the country, making more than 30 trips and developing "warm and confident relationships." HE expressed his "honour, pride and joy" at receiving the prize during his acceptance speech in Paris. 

The International Science and Technology Cooperation Award was initiated by China's State Council in 1994, and is conferred on foreign individuals or organizations that have made important contribution to China's science and technology development.

During the 30th Symposium on Fusion Engineering (SOFE 2023, 9-14 July 2023), the Fusion Technology Awards for 2022 and 2023 will be presented to individuals who have distinguished themselves through innovation in all fusion approaches that have shown significant promise or progress in the design of reactors or in the understanding of fusion plasmas.

The awards each consist of a USD 3,000 cash prize and a plaque. The nomination package should be sent to the Fusion Technology Committee Awards Chair, Dr. Carl Pawley (drcpawley@ieee.org), and it should consist of a letter describing the technical contributions on which the nomination is recommended and a current resume of the candidate. Other supporting endorsements are encouraged.

The nomination deadline for the 2022 and 2023 Fusion Technology Awards is 8 April 2022.

For more detailed information on eligibility, basis for judging, the nomination process or a list of past award recipients, please visit the IEEE-NPSS website and go to the "Fusion Technology Awards" section.

The 2022 Big Science Business Forum is the "one-stop meeting point" in Europe between Big Science and industry.

Scheduled from 4 to 7 October 2022 as an in-person event in Granada, Spain, the forum will feature the procurement and technology transfer opportunities of eleven prominent European Big Science research facilities in the areas of astrophysics, space, synchrotrons, high-energy accelerators and fusion. The European Domestic Agency for ITER, Fusion for Energy, is one of the founding members of the Big Science Business Forum. Some speakers from the ITER Organization will also be present at the event.

Business opportunities worth EUR 37 million (for the period 2022-2026) will be presented. More than 1,000 participants from 500 companies and organizations across Europe are expected. 

A specific "Technology Transfer track" will provide research entities and companies at the forum with the means to share and seek technologies that have potential cross-market applications, either in Big Science or in other markets.

Opportunities to get involved in the IFMIF-DONES materials research facility, a key step on the European Roadmap to Fusion Energy that is planned for construction in Granada, Spain, will also be highlighted.

A special event dedicated to "Women in Big Science" is scheduled on Day 1.

See all information at this address.

The European Fusion Education Network FuseNet has released a new 30-minute video on fusion energy. In "The Easiest Thing Nature Does," the viewer is introduced to the whats, whys, and hows of fusion by some of the very people who are working on the ground in Europe to make fusion energy a reality.

Meet researchers from CIEMAT (Spain), the Max Planck Institute for Fusion Energy (Germany), the ITER Organization, and York University (United Kingdom). Hear from members of the UKAEA/JET tokamak team, including a mechatronics engineer, a plasma spectroscopist, a senior operations manager, and a diagnostics project engineer. Learn about tokamaks, stellarators and the current dynamism of the private fusion sector. And drop by ITER, where construction is underway on the world's largest fusion device.

It's an exciting time for those involved in fusion worldwide, and it's a sector that is recruiting. "The Easiest Thing Nature Does" lists the many types of skills that are needed and invites you to get involved!

See the video on this FuseNet page or on YouTube.

"All About ITER," ITER's first podcast miniseries, is now available through World Radio Paris, the only 24/7 English-speaking national radio channel in France. If you haven't heard about it already, "All About ITER" is a miniseries with six episodes that dive deep into what makes ITER tick: from the science behind fusion, to the manufacturing taking place all over the world, to the people behind the project.

You can listen to "All About ITER" live on World Radio Paris (WRP) between the weeks of 7 March and 16 May (schedule below), on the WRP website, or by downloading the WRP app.

And if you're not in France, the ITER podcast "All About ITER" is available on Apple Podcasts, Spotify, Google Podcasts, Amazon Music, Tune In, PodBean and the ITER website.

Schedule: World Radio Paris
Mondays, 2 p.m.
Tuesdays, 11 a.m.
Fridays, 7 p.m.
Episode 1: Week of 7 March
Episode 2: Week of 21 March
Episode 3: Week of 4 April
Episode 4: Week of 18 April
Episode 5: Week of 2 May
Episode 6: Week of 16 May

A theoretical physicist, but one who views theory as something "to be put to use," Alain Bécoulet can speak (and write) about fusion in terms that are both simple and inspiring. In his recently published Star Power: ITER and the International Quest for Fusion Energy (MIT Press), he offers a concise and accessible overview of fusion energy promises and challenges, not only explaining the underlying science and technology but also describing the massive international effort to harness this potential new energy source.

Having embraced plasma physics in the mid-1980s as a student at France's prestigious École Normale Supérieure, Bécoulet draws from his long experience in fusion research, first at France's Institute for Magnetic Fusion Research (IRFM), and since February 2020 as head of the ITER Engineering Domain, to explain how the long-pursued dream of harnessing the energy of the Sun and stars is on the verge of becoming reality.

Find out more here.

In this ITER Talk, the seventh in the series, ITER scientific expert Joseph Snipes walks us through plans for ITER operation. What does the "Q" in ITER's goal of Q=10 stand for? How will the machine and its systems be prepped for operation? What are the different steps between First Plasma and full fusion power operation?

The ITER Research Plan will proceed in four stages—a careful step-by-step strategy designed to achieve high plasma performance operation up to a plasma current of 15 MA, with key milestones along the way. Learn about the staggered assembly of key systems, the specific goals of each operation phase, the means to achieve the goals, and the importance of robust plasma control. By the end of the talk, you'll know (a lot) more about the unique capabilities of the ITER experimental device.

A note to viewers: This ITER Talk goes hand in hand with ITER Talk (6)—"Tokamak Physics for Nuclear Fusion" by the head of the ITER Science Division Alberto Loarte (viewable here).

Watch the seventh episode of ITER Talks here.

See the full ITER Talks playlist on YouTube here.

Alberto Loarte, head of the Science Division at the ITER Organization, introduces us to the physics of ITER plasmas and explains how the physics justifies the design of the machine. He reviews the deuterium-tritium nuclear fusion process, the role of magnetic fields in fusion, the specificities of the tokamak configuration, energy and particle confinement, heating and fuelling, and finally fusion power, particle exhaust and plasma-wall interactions. And he does it all in a clear and understandable way!

A note to viewers: This ITER Talk goes hand in hand with ITER Talk (7)—"The ITER Research Plan: How to Reach Q=10" by ITER scientific expert Joseph Snipes (viewable on the ITER YouTube channel here.

Watch the sixth episode of ITER Talks here.

See the full ITER Talks playlist on YouTube here.

There are presently two approaches to realizing hydrogen fusion. One, implemented in tokamaks and stellarators, consists in heating a very tenuous plasma to temperatures in the 100 million degrees Celsius range and to confine it in a magnetic cage—this is magnetic fusion. Another, called inertial fusion, is implemented in installations such as the American National Ignition Facility (NIF) or the French Laser Mégajoule. In inertial fusion an array of hundreds of powerful lasers, precisely focused, is used to compress to extreme density (and hence very high temperature) tiny hydrogen-filled capsules inside which fusion reactions can occur.

Now, a third approach is being considered and experimented at NASA's Glenn Research Center, in Cleveland, Ohio. Called "lattice confinement fusion," it could one day provide enough power to operate small space probes or rovers for planetary exploration.

In lattice confinement fusion (LCF), a beam of gamma rays is directed at a sample of erbium or titanium saturated with deuterium nuclei (deuteron). Occasionally, gamma rays of sufficient energy will break apart a deuteron in the metal lattice into its constituent proton and neutron. The energetic neutron has a chance of colliding with another deuteron in the lattice, imparting it with some of its energy. And sometimes that energy is enough for deuterons to fuse into a helium-3 nucleus (helion) and give off useful energy. A leftover neutron could provide the push for another energetic deuteron elsewhere in the lattice.

"Our work represents just the first step toward realizing that goal," say the scientists involved in this endeavour. "If the reaction rates can be significantly boosted, LCF may open an entirely new door for generating clean nuclear energy, both for space missions and for the many people who could use it here on Earth."

 Read more about lattice confinement fusion on the IEEE Spectrum here.

 

 

During the operation of a fusion machine, it is important to know the surface composition of the plasma-facing components, which can evolve over time (erosion, oxidation...) and modify plasma interaction conditions.

The team at the WEST tokamak in France is testing a new kind of diagnostic, called the fibered LIBS (for Laser-Induced Breakdown Spectroscopy), to characterize internal surfaces of WEST and later ITER. 

In LIBS, a high-intensity pulsed laser beam is focused on the surface to be analyzed. The laser/matter interaction leads to the ablation of the material and the creation of a plasma plume. The spectral analysis of the plasma emission gives access to the elemental composition of the ablated material and thus the composition of the material under study.

Installed on an inspection robot equipped with an articulated arm, the LIBS tool consists of an optical fibre carrying the incident laser light and the light emitted during the interaction of the laser beam with the material under study. The diagnostic can not only characterize all internal surfaces of the machine and follow their evolution, but also (in ITER) monitor tritium concentration in the first wall and detect eventual helium bubbles in plasma-facing components coming from the interaction of fusion neutrons with the materials.

The first tests were carried out in December 2021. Read the original article in English or in French.

Mark your calendars: The Head of ITER's Science Division, Alberto Loarte, will be giving a webinar on 2 February 2022 called "Burning Plasma Aspects at ITER."

The talk is part of a webinar series organized by the U.S. Burning Plasma Organization (USBPO) that runs from January through August 2022 with one or two webinars a month. (See the full program here.) 

The U.S. Burning Plasma Organization (USBPO) is a national organization of scientists and engineers involved in researching magnetically confined burning fusion plasmas.

To sign up for "Burning Plasma Aspects at ITER," see this page.

The global manufacturing intelligence firm Hexagon AB is providing metrology support to ITER for the precise assembly of components during the machine assembly phase. In this promotional video you can watch how the huge components of ITER's first vacuum vessel sub-assembly are brought together with assembly tolerances of just 1 mm.

See the video here.

The 59th Culham Plasma Physics Summer School will take place from 18 to 28 July 2022 at the Culham Science Centre in Oxfordshire (UK).

The aim of the Summer School is to provide an introduction to the fundamental principles of plasma physics, together with a broad understanding of its fields of application. It assumes no previous knowledge of the subject, but familiarity with electromagnetism and applied mathematics at first degree level would be helpful.

The 2022 school will cover fundamental plasma physics, as well as important topics in fusion, astrophysical, laser and low temperature plasmas. Lecturers are drawn from the Culham Centre for Fusion Energy (CCFE), the Rutherford Appleton Laboratory (RAL) together with leading European universities. All are renowned experts in their fields.

Special arrangements are being made this year to allow for COVID. For more details and to apply visit the dedicated website.

The deadline for applications is 20 June 2022.

Scientists from the European research consortium EUROfusion have recently completed ambitious fusion energy experiments at the world-leading fusion research facility JET (Joint European Torus) at the UK Atomic Energy Authority in Oxford, UK. Join them for a media event on Wednesday 9 February 2022 at 12pm - 2pm GMT as they reveal the exciting results.

Click here to link to the media event.

 

On Friday, 11 February 2022—International Day of Women and Girls in Science—Fusion for Energy (F4E) and the Big Science Business Forum will be hosting a webinar on the role of Women in Big Science. The session will bring together representatives from big science organizations, industry and policy in Europe to discuss the potential of women in big science and some of the long-lasting challenges they face.

The idea of an award promoting best practice involving women in big science will also be discussed.

Registration is open here.

For 15 years ITER has been opening its doors to visitors, either in small groups or during regular Open Doors Days. Approximately 160,000 visitors from all horizons—school children, students, members of the public, companies, politicians—have passed through the ITER gates since 2007, returning home with a better idea of the scale and importance of ITER and of the passion that animates the men and women who work here.

Because in-person Open Door Days have been impossible for the past two years, the ITER Communication team innovated in 2021, creating a virtual experience on line for "visitors" from around the world.

Demonstrations, livestreams from the worksite, videos, presentations, virtual reality ... there is something for everyone.

The three-hour event is now available in replay. Follow this link to view it.

The 11th ITER International School will be held from 25 to 29 July 2022, hosted in person by the U.S. Burning Plasma Organization, University of California at San Diego, and General Atomics.

The subject of this year's school is "ITER Plasma Scenarios and Control." As the start of ITER operation approaches, it is timely to address this challenging multidisciplinary topic: the development of integrated operating scenarios and required plasma control to facilitate the ITER goals, particularly for plasmas self-heated by fusion-born alpha particles.

The ITER International School is organized regularly with the goal of giving young scientists and engineers a taste of the stimulating, multi-disciplinary and challenging field that is nuclear fusion.

For all information on the 2022 edition, see this webpage.

Carlos Alejaldre, who was an ITER Organization Deputy-Director-General from 2006 to 2015 and who is the current Director-General of CIEMAT (Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas), the Spanish public research agency focused on energy and the environment, has been appointed as the new Chair of the Fusion for Energy (F4E) Governing Board.

A plasma physicist by training, Carlos has held several important positions in fusion research. Prior to joining ITER, he headed CIEMAT's national fusion laboratory (1992-2004) and was for two years (2004-2006) the director general of technological policy at the Spanish ministry of Education and Science. At ITER, he was head of the Safety and Security Department.

Alejaldre will act as Chair of the F4E Governing Board, the body that supervises the activities of the European Joint Undertaking for ITER and the development of fusion energy, for an initial period of two years starting on 1 January 2022. 

See the F4E website for more information. 

In a rare and memorable moment, the Joint European Torus (JET) team today received His Royal Highness the Prince of Wales for a tour and first-hand discussion of fusion energy. Long known as an advocate of environmental awareness and sustainable energy, Prince Charles was, according to UKAEA CEO Ian Chapman, "keen to understand more about how fusion can be a critical piece of the future global energy puzzle." Together with European and UK officials, ITER Chief Scientist Tim Luce was present to meet the Prince of Wales and explain the JET-ITER connection.

Currently the world's most powerful tokamak, JET is a direct precursor to ITER, and recently celebrated the completion of its 100,000th pulse. New scientific results from the most recent JET deuterium-tritium campaign will be released in February.

During his visit, the Prince of Wales was introduced to ITER by Tim Luce, head of the ITER Science & Operations Domain (left).

See the official UK government press release here.

On 17 December 2021, the Fusion Energy Forum of Japan (FEFJ) held its annual Symposium on the ITER Project and Broader Approach* activities. Featuring speakers from government, business, academia, and science, the 4.5-hour event covered fusion energy policy in Japan, progress in domestic and international fusion projects (including ITER and the Broader Approach), frontiers in research, and industrial applications.

See all speakers and presentations at this link. 

Watch the event on YouTube in Japanese or with a voiceover in English.  

* The Broader Approach activities, financed by Europe and Japan, aim to accelerate the realization of fusion energy. Find out more here.

Since its inauguration in 1983 in the presence of Her Majesty Queen Elizabeth II, the European tokamak JET has cemented its reputation as "one of the most important machines in the history of fusion energy research," according to Ian Chapman, CEO of the UK Atomic Energy Authority. On 18 January 2022, the machine ran its 100,000th plasma pulse.

JET, for Joint European Torus, is the focal point of the European fusion research program, designed to study fusion in conditions approaching those needed for a power plant. It is the only experiment that can operate with the deuterium-tritium fuel mix that will be used for commercial fusion power (and in ITER).

In 1997 JET successfully produced a world record 22.5 megajoules of fusion energy and 16 megawatts of fusion power during the first dedicated deuterium-tritium experiments, proving large amounts of power can be produced from fusion.

In 2011 JET was equipped with a new ITER-like inner wall made of beryllium and tungsten metals, enabling scientists to develop plasma scenarios that resemble as closely as possible those planned for ITER, investigate the interaction of the plasma with wall materials, and study the accumulation of tungsten from the wall in the plasma core.

In 2021, JET carried out a second full-power run of experiments using deuterium and tritium. Stay tuned: the results from these experiments will be announced in early February 2022.

The JET facilities located at the Culham Centre for Fusion Energy (CCFE) in Abingdon, Oxfordshire UK, are collectively used by all European fusion laboratories under the EUROfusion consortium. About 350 scientists from EU countries (plus Switzerland, the UK and Ukraine), and more from around the globe, participate in JET experiments each year. CCFE is responsible for operating the facility for fusion researchers and for maintaining and upgrading it. This work is carried out under a contract between the European Commission and the UK Atomic Energy Authority (CCFE's operator). 

The ITER community congratulates the JET team on its 100,000th pulse!

Thesis supervisors are invited to nominate a student for the 2021 FuseNet Master Thesis Prize by 10 February 2022.

FuseNet will award the prizes to students who write outstanding Master's theses that were (at least partially) carried out and completed across Europe. The prizes serve to highlight the important research that is carried out by dedicated and talented fusion students.

As a prize, the winners will be invited to present their work as a poster at the 48th European Physical Society Conference of Plasma Physics held in Maastricht, the Netherlands, from 27 June to 1 July 2022. Travel, subsistence, and fees will all be covered by FuseNet.

Learn more about the prize on the FuseNet website.

The size and weight of major ITER components, the careful handling, tiny assembly tolerances, the breadth of manufacturers, the tight schedule, complex interfaces ... all of these elements combine to make the assembly of the ITER machine an engineering and logistics challenge of enormous proportions.

In this new ITER Talks video, two members of the Construction Domain—Jens Reich (Ex-Vessel Delivery & Assembly Division Head) and Brian Macklin (Group Leader for Ex-Vessel Assembly)—describe how teams have planned for the assembly of the 23,000-tonne ITER machine, how the sequences are unfolding, what the main challenges are, and what lessons have been learned since the first machine assembly activity was launched in 2018.

Watch the fifth episode of the ITER Talks here.

See the full ITER Talks playlist on YouTube here.

The ITER Organization has launched the procurement for the Hot Cell Facility Project Integrator. 

The ITER Hot Cell Facility is the maintenance and refurbishment facility supporting tokamak operation. The role of the Project Integrator will be to prepare and promote the collaboration to realize the ITER Hot Facility, working with both the clients and first-tier contractors through all project phases.

For companies interested in learning more about the Hot Cell Facility Project Integrator contract, a virtual procurement Information Day will be organized on 24 January 2022. 

Register here by 20 January.

The deadline for this Call for Nomination is 28 January 2022. 

Recruitment opens TODAY for the 2022 Monaco-ITER Postdoctoral Fellowship campaign. The ITER Organization is looking for five postdoctoral candidates in the fields of fusion science or engineering for two-year positions based in Saint-Paul-lez-Durance, France (ITER Headquarters).

If your PhD was awarded after 1 January 2019—or you are about to obtain one—and you are interested in participating in one of the greatest scientific and technical challenges of the 21st century, this may be an opportunity for you.

The positions are funded by the Principality of Monaco, which signed a Partnership Arrangement with the ITER Organization in 2008 and renewed its sponsorship in 2018 for ten years. Candidates must have an excellent track record of creativity and accomplishment in their chosen fields.

The campaign closes on 1 March 2022. For more information see Monaco-ITER 2022. To apply, see the ITER Jobs page.

The CERN Courier just released its 2022 In Focus report on vacuum science, technology and innovation. In it, there is a four-page report on vacuum science at ITER featuring Vacuum Section Leader Robert Pearce.

"Design, construction, commissioning, operation and upgrade: the life-cycle of large-scale scientific vacuum systems informs the exclusive coverage in this CERN Courier In Focus report," writes the editor. "Think technology innovation and implementation on an ambitious canvas like ITER's sprawling vacuum ecosystem, a core building block in the international research effort to transform nuclear fusion into an at-scale energy proposition (pp. 20-22)."

[...]"When it becomes operational later this decade, the ITER fusion research project will be dependent on one of the most complex vacuum systems ever built. Joe McEntee checks out progress with ITER vacuum section leader Robert Pearce, while highlighting the downstream commercial opportunities already spinning out from the core construction programme."

You can read the report here.

Watch a recent ITER TALK on vacuum here.

Applications are open through 31 January 2022 for the 2022-2024 program; students from all over the world are encouraged to apply.

The Erasmus Mundus European Master of Science in Nuclear Fusion and Engineering Physics (FUSION-EP) aims to provide a high-level multinational research-oriented education in fusion-related engineering or physics in close relation to the research activities of the partners (7 universities and 24 partners (including the ITER Organization) in 12 countries.

This master degree is a unique opportunity for the selected students to study in two different European countries and to discover and work at major fusion research facilities during the two years' programme.

The very international curriculum, the high quality and completeness of the curriculum and the high selectivity of FUSION-EP allowed it to be selected as an EMJMD by the Executive Agency for Culture, Education and Audiovisual. The EACEA provides a number of full scholarships for the best-ranked applicants.

Apply now for a start in September 2022.

For more information or to apply, see the Fusion-EP website. 

In the latest episode of the ITER Talks series, join ITER specialist Robert Pearce for a voyage into the universe of vacuum. Is vacuum absolutely nothing ... or is it something more than you could imagine? Does a "perfect vacuum" exist? How can vacuum be defined and measured, and how did scientists come to understand it? What is the importance of vacuum for ITER?

As head of the Vacuum Delivery & Installation Section at ITER, Pearce is responsible for the systems that will create the necessary vacuum conditions not only in the plasma chamber and the cryostat, but also in heating, diagnostic and auxiliary systems.

Watch the fourth episode of the ITER Talks here.

See the full ITER Talks playlist here.

A new episode of the Oak Ridge National Laboratory's Sound of Science podcast puts the focus on fusion.

"Building a sun on Earth to produce unlimited, carbon-free energy may sound like science fiction, but it's not. It's a nuclear process called fusion, where two atoms join together and create an abundance of energy. Recreating the power of a star is no easy feat, but scientists across the globe are hard at work to make it a reality. From materials, to confining sun-hot plasmas, to fuel, there are a lot of scientific challenges to overcome to build a fusion reactor. In this episode, we talked to several Oak Ridge National Laboratory scientists about how they are tackling these problems and why the future of fusion looks brighter than ever right now."

Listen to "Fusion: Energy at the Extreme" here (30').

On Wednesday, 8 December 2021, Al Jazeera's The Stream asked: Could fusion energy be the clean energy answer to the climate crisis?

Recent advances have led to a rise in interest and funding from investors who want to see the first energy-creating fusion machine and eventually the first fusion power plant to generate power that is safe and free of carbon emissions. How far are we away from re-creating the energy source of the Sun?

Host Josh Rushing speaks with Tim Luce, chief scientist at the ITER Organization; Andrew Holland, CEO of the Fusion Industry Association; and Tammy Ma, from Lawrence Livermore National Laboratory's National Ignition Facility.

Watch a replay of the 25-minute show here.

A new series of webinars on burning plasma physics has been announced by the U.S. Burning Plasma Organization (USBPO). The webinars will focus on the implications for burning plasma physics of different types of fusion devices including the tokamak, the stellarator, high-field devices and new concepts. The webinar series is organized in the context of long-range fusion energy planning activities that have been launched in the United States, but the updates on recent developments can interest the worldwide community. Seven webinars are planned (dates subject to confirmation).

See more about the new webinar series here.

See the sign up link at the end of this document.

USBPO works to advance the scientific understanding of burning plasmas and coordinates relevant fusion research in the United States with broad community participation. See https://burningplasma.org/. 

The 2021 Symposium on Fusion Engineering (SOFE) will take place exclusively on line from 12 to 16 December 2021. It will be co-located on the same virtual platform as the IEEE Pulsed Power Conference (PPE), offering participants enhanced opportunities for social and technical interaction.

Held biennially since 1965, SOFE is coordinated by the Fusion Technology Committee of the IEEE/NPSS (Institute of Electrical and Electronics Engineers/Nuclear & Plasma Sciences Society). The Symposium is dedicated to the scientific, technological and engineering issues of fusion energy research and is a mixture of oral presentations and poster sessions. 

Head of the ITER Engineering Domain Alain Bécoulet will be  presenting the status of ITER assembly in the Opening Plenary. Other ITER presenters will discuss tokamak assembly, diagnostic engineering and integration, and the ITER in-vessel coils.

There is still time to sign up at PPC-SOFE 2021.

ITER was represented earlier this month at the world's largest exhibition dedicated to the civil nuclear sector—the World Nuclear Exhibition (WNE), which was organized in Paris and virtually from 30 November to 2 December 2021.

WNE brings together the global civil nuclear community once every two years for networking and discussions of the major challenges facing the industry and society. This year's edition, which attracted more than 600 exhibitors from 83 countries and approximately 18,000 participants, was organized around the theme "The nuclear industry, a key partner for a low-carbon society in a responsible future."  

Organizers highlighted the role that the global nuclear sector can play as a "steerable, non-intermittent, and competitive" source of electricity in the fight against climate change and the effort to move toward a sustainable low-carbon-emissions future. "R&D in new technologies and concepts are stimulating the sector as well as business and job prospects and competitiveness within the entire value chain," stressed WNE President Sylvie Bermann. 

In her address on the opening day, European Commissioner for Energy Kadri Simson placed ITER squarely in the category of "disruptive innovations. "The benefit for international scientific collaboration and the potential spill-over effect for technological innovation is hugely significant."

At the ITER stand, in space shared with the European Commission and the European Domestic Agency Fusion for Energy, there was a steady stream of interested visitors over three days. The most common question from nuclear industry representatives was: "How can we get involved in fusion?"

(Photo: Philippe Eranian)

The ITER Organization has kicked off its 2022 internship program with the publication of 68 offers on the ITER website (visit Jobs/Internships here: https://www.iter.org/jobs/internships).

These opportunities are geared toward undergraduate and postgraduate students, with a broad array of topics across scientific, technical and support departments. Science, technology, systems engineering, business operations, and construction and installation are all represented in this year's batch of internship opportunities.

Positions are offered for up to six months; some categories are extendable to one year. Apply before 16 February 2022 (or 16 January 2022 for internships beginning in Q1 2022) through the online e-recruiting system. (Please note that internship opportunities are limited to nationals from countries participating in the ITER Project, i.e., China, the European Union, India, Japan, Korea, Russian Federation and the United States.)

Recruitment opens for the next Monaco-ITER Postdoctoral Fellowship campaign on 17 January 2022. If your PhD was awarded after 1 January 2019—or you are about to obtain one—and you are interested in participating in one of the great scientific and technical challenges of the 21st century, this may be an opportunity for you.

ITER is seek top candidates with an excellent track record of creativity and accomplishment. Research possibilities exist in many areas of fusion science and technology, including: control technology; plasma-facing materials and components; burning plasma physics (confinement, stability, plasma-wall interactions, control, energetic particle physics); heating and current drive physics and technology; fusion plasma diagnostics; superconducting magnet technology; electrical engineering; mechanical engineering/structural analysis; remote handling technology; vacuum technology and plasma fuelling technology; cryogenics; tokamak operations; tritium breeding and tritium handling technology; and thermohydraulics.

The 2022 campaign opens on 17 January 2022 and closes on 1 March 2022. Five researchers, selected from among applicants from the seven ITER Members or from the Principality of Monaco, will be recruited for two-year positions (all positions must be taken up by 31 December 2021).

For all information, see this ITER webpage.

Download the campaign poster here. 

Bertrand, creator of the YouTube channel J'm'énerve pas, j'explique ("I don't get mad, I explain"), manages to explain physics, astrophysics and cosmology in videos that blend detailed explanation, home-made graphics and humour. After producing popular videos on particle accelerators, the Large Hadron Collider, and the Higgs boson, he has turned to ITER science. In a 35-minute video release in November 2021 he covers nuclear fusion in the Sun, the history of fusion in the laboratory, and the ambition of the ITER Project. Why will ITER use hydrogen isotopes as fuel? How will the experiment create temperatures of 150 million degrees Celsius? How will materials survive inside of the plasma chamber? Why does the tokamak have to be so large?

You can watch it (in French) on the J'm'énerve pas, j'explique YouTube channel here. 

Who knows how much energy 1 joule represents? How much oil does it take to make a mobile phone? How much coal is used in the world? Despite all the debate about this crucial subject, most of us are in fact "energy blind." We often talk about energy without fully appreciating what it means today, or how central it is to all human evolution.

A new book by Greg De Temmerman—an energy physicist with a PhD in experimental physics, managing director at the think tank Zenon Research, and former scientific coordinator at ITER—provides the keys to understanding energy in a fun, short chronicle format.

Available for pre-order in English and French at Editions la Butineuse.

FuseNet is the European Fusion Education Network, formed to promote access to fusion education and build a network of people to make fusion a reality.

If you are a fusion enthusiast in the master's or doctoral phase of your education at one of FuseNet's affiliated member associations, you may be qualified to serve on the FuseNet Student Council.

The Student Council—one of the two permanent FuseNet advisory bodies—is charged with advising the Board of Governors on those matters that are of interest to students. The Council predominantly convenes digitally, but it also has at least one physical meeting each year. Members to the Student Council are appointed for one year, renewable once.

Should you wish to apply to become a member of the FuseNet Student Council, send a 400-word motivation letter and one-page curriculum vitae to student.council@fusenet.eu by 1 December 2021.

Read more about the FuseNet Student Council here.

Scientists, engineers, policymakers, entrepreneurs and investors interested in fusion are invited to join the International Atomic Energy Agency's first fusion webinar on Monday, 22 November 2021. Among the planned talks on the potential of fusion as a carbon-free energy source and the technology needed to make it possible, Takayoshi Omae will present the "Way Forward for the Fusion Community" on behalf of the ITER Organization. The webinar will also include a panel discussion with chair Melanie Windridge (Fusion Industry Association), who will also welcome questions from participants.

This event, hosted by IAEA's Sehila M. Gonzalez de Vicente, begins at 17:00 CEST and closes at 19:15. Participation is free, but registration is required. Please visit the original announcement, here, for registration details and more information.

(Added on 30 November 2021: You can find the recording of the event here.)

Fusion energy promises a step change in the way the world's future energy demands are met in a low-carbon, safe and sustainable way.

This was the message from scientists and engineers from the fusion energy community to world leaders on the final day of the COP26 conference in Glasgow, on Friday 12 November 2021.

The event, titled "Looking to the Future with Fusion Energy," featured a diverse range of international voices from the fusion community, with a spectrum of perspectives on fusion energy. The science and engineering challenges involved, the status of ITER, and emerging commercial ventures were all part of the discussion. Panel chair Bernard Bigot, ITER Director-General, was joined on stage by Aneeqa Khan, Research Fellow in Fusion at the University of Manchester and former Monaco-ITER Fellow; Sibylle Günter, head of the Max Planck Institute of Plasma Physics; Amanda Quadling, Director of Materials at the UK Atomic Energy Authority; and Jane Hotchkiss, President of Energy for the Common Good.

Watch the one-hour panel discussion here.

The world needs to mount a "COVID-scale" investment worth hundreds of billions of pounds in green technologies if it is to tackle global warming, the head of Britain's nuclear fusion program Ian Chapman warned in an interview with i News on 11 November.

Speaking ahead of a forum on fusion power at the COP26 climate conference in Glasgow, the chief executive of  the United Kingdom Atomic Energy Authority (UKAEA) warned that global leaders have not yet fully grasped the urgency and importance of fully funding existing and emerging technologies such as fusion, carbon capture and next generation solar power to provide a full portfolio of green energy sources.

"There are all sorts of things that we should be investing hundreds of billions into and we're not. Globally, we are spending hundreds of billions this year on extracting fossil fuels. As a [global] society, we don't have our priorities in the right place. We should realize that this is an existential problem and deal with it in the same way that we have approached COVID-19, where we have invested heavily in the technology that it going to get us out of the crisis. If we treated climate change in the same way, of course we would deal with it quicker."

Chapman argues that fusion has the potential to replace gas and coal as the source of "base load" continuous energy production to supplement weather-dependent sources of green power.

See the full interview at iNews.

Image credit: KSTAR

On "Youth and Public Empowerment Day" at COP26, ITER and a group of global partners launch INFUSED—the International Fusion Education Initiative. The program curates quality fusion education materials and makes them available to interested students, educators and members of the public. Lectures, MOOCs, videos, virtual tours, games, DIY projects ... see all materials on this ITER webpage: https://www.iter.org/education/infused. 

The U.S. Fusion Outreach Team, a grassroots organization in the fusion community focused on reducing barriers to outreach efforts, has launched a new centralized website to engage an expanding workforce, media, educators, and the public in the journey toward a world powered by fusion energy.

Steffi Diem and Arturo Dominguez, co-leaders of the U.S. Fusion Outreach Team, are coordinating this effort. "We're excited to launch the U.S. Fusion Energy website to provide resources and up-to-date news on our field," said Dominguez. Diem also added, "We hope that this website will engage the public to be part of the fusion movement, recruit a diverse workforce and to provide a community for U.S. fusioneers."

To learn more, visit the website here.

Source: Phys.org

In the Action Hub amphitheatre at COP26, the ITER Organization was invited to present the status of fusion research—both in the south of France, where ITER is being assembled, and worldwide.

Follow the link below to take the Fusion World Tour as presented by Matteo Barbarino (IAEA), Aneeqa Khan (Research Fellow in Fusion at the University of Manchester and former Monaco-ITER Fellow), and Sabina Griffith (ITER Organization). 

Watch a replay of the 4 November 2021 event here. 

As part of Youth Day at United Nations Climate Change Conference, the International Atomic Energy Agency (IAEA) organized an event titled "Net Zero World: The Youth Perspective Today & The Future."

The second panel discussion programmed during the event focused on nuclear fusion's role in long-term sustainable energy and examined how international collaboration and innovation can be used to address technical and commercial challenges. "Nuclear Energy—Net Zero Beyond 2050" featured ITER Project Associate Nitendra Singh (nuclear safety engineer) and former Monaco-ITER Fellow Aneeqa Khan (current Research Fellow in Fusion at the University of Manchester, United Kingdom).

Watch a replay of the 5 November 2021 event here. (Forward to 1:14:15 for the start of the second panel discussion.) 

Each year the United Kingdom Atomic Energy Authority (UKAEA) aims to appoint outstanding scientists or engineers who have recently completed a doctorate to a two-year research fellowship in any field of fusion research conducted at the Culham Centre for Fusion Energy (CCFE). Candidates need to be highly motivated and show initiative.

The latest campaign is open for application through 17 December 2021. 

Applicants should possess a degree in physics, engineering, materials science or other relevant subject; a relevant PhD  (preferably in fusion research); a record of peer-reviewed publication in high-quality journals; a high degree of motivation and initiative; and good written and oral communication skills.

See all information on the Culham Centre for Fusion Energy (CCFE/UKAEA) website.

--Photo credit: UKAEA

All seven levels of the ITER Tokamak Building are now covered in smooth and shiny white paint. 

In a nuclear building, the coating on the floors, walls and ceilings must present a perfectly smooth surface in order to be decontaminated in case of an incident or accident. 

European Domestic Agency contractors used approximately 150 tonnes of resin, primer and paint to transform the raw concrete surfaces of the building into a pristine jewel box. Work continues in the nearby Tritium Building, Site Services Building, and Radio Frequency Building. 

See a recent article on the Fusion for Energy website for more information.

FUSION-EP, organized with the support of the Erasmus+ Programme of the European Union, was created in 2006 to train the next generation of fusion physicists and engineers. Students spend two years studying advanced fusion science and technology to earn a Master of Science in Nuclear Fusion and Engineering Physics.

Applications for the 2022 academic year are opening soon—on 15 November—and will close on 31 January 2022. FUSION-EP also awards scholarships to top-ranked students to cover the participation fee and offers a monthly allowance for two years. And though Aix-Marseille Université is the coordinating institution, there are participating universities all across Europe where students can pursue the FUSION-EP degree.

To learn more about the program, visit the FUSION-EP site here. To apply, see the application page here.

The ITER Organization is organizing a virtual Open Doors Day on Wednesday, 27 October 2021.

The three-hour event will be offered in English (afternoon) and French (morning). "Visitors" who sign up through an on-line portal will have a chance to attend a general presentation on the ITER Project, take self-guided virtual visits through the main buildings on site, and browse through a virtual exhibition centre featuring some of ITER's manufacturing and construction partners.

A number of surprises are also planned ... think virtual reality, DIY, livestreams and we've even heard a rumour about a "plasmagician," but we have no more information at this time ... 

(Age recommendation: 7 and up). More than 1,000 people have signed up. Will you join them?

Follow the links to sign up in English or French.

Dimitri Ferrière, alias Monsieur Bidouille, is a French maker and well known scientific populizer on YouTube whose curiosity takes him from the exploration of topics as varied as perpetual motion and energy, to the internet, space, and the climate. 

Bidouiller, which can be loosely translated as "tinkering,'' "fiddling around to fix," or "creating," is at the centre of his interest in DIY, fablab and alternative solutions.

In September 2021, he released a 50-minute video on ITER, based on a three-day visit to the project site in Saint-Paul-lez-Durance in April 2021. The video reached 330,000 views the first week.

You can watch it (in French) on Monsieur Bidouille's YouTube channel here.

Join fellow fusion PhD candidates from all over Europe next month at the annual PhD Event organized by the European Fusion Education Network, FuseNet.

The event, held on line from 22 to 23 November 2021, will feature high-profile keynote speakers, a top-notch scientific program and the much anticipate PechaKucha contest, where students present their research in 20 slides, 20 seconds per slide. There will also be moments to "gather" thanks to creative on-line offerings through the event platform Gather.town.

Registration is open through 31 October 2021 here. See all information on the FuseNet website.

The ITER Organization is organizing a virtual Open Doors Day on Wednesday, 27 October 2021.

The three-hour event will be offered in English (afternoon) and French (morning). "Visitors" who sign up through an on-line portal will have a chance to attend a general presentation on the ITER Project, take self-guided virtual visits through the main buildings on site, and browse through a virtual exhibition centre featuring some of ITER's manufacturing and construction partners.

A number of surprises are also planned ... think virtual reality, DIY, livestreams and we've even heard a rumour about a "plasmagician," but we have no more information at this time ... 

(Age recommendation: 7 and up).

Follow the links to sign up in English or French.

Whether burning in a fuel cell or engine, or "fusing" in a tokamak, hydrogen will play a major role in clean energy production and consumption. In a recent article in the The European Files, ITER Director-General Bernard Bigot explores the potential benefits of a (near) future "hydrogen economy" that would include fusion as a "highly concentrated baseload energy source" and as a technology that could "produce clean hydrogen" to, among different uses, power transport vehicles.

"Like electricity, hydrogen is not a primary fuel," writes the ITER Director-General. It is produced using different energy sources, fossil fuels among them. Therefore, the environmental impact of this "grey hydrogen" is far from being neutral.

"To make the hydrogen economy truly green," he argues, "we will need a clean source of concentrated baseload energy." Hydrogen fusion has all the characteristics to fill that requirement.

Read the full article here.

The European Organization for Nuclear Research (CERN), the European Space Agency (ESA), ITER and the Square Kilometre Array Observatory (SKAO) came together to host an online career event on 5 October 2021. The information session was designed to inform participants of the many diverse options available for engineers interested in science, technology and space. Four speakers represented the four organizations involved in the event:

Anna Cook from CERN

Elena Saenz from ESA

Deirdre Boilson from ITER

Maria Gracia Labarte from SKAO

These four representatives discussed not only what their organizations do, but also explained what the working culture is like and what they love about their jobs. You don't have to be a rocket scientist to apply, they agreed. Passion is most important.

Though the event was held via livestream, a recording is available on YouTube here.

The European Consortium for the Development of Fusion Energy, EUROfusion, is premiering a travelling exhibition on fusion energy that aims to be both educational and participatory.

Fusion, Power to the People, which opens on 8 October in Marseille, France, combines science, art and technology to make a complex topic accessible to all kinds of audiences. The exhibition looks to the past, present and future to help visitors understand what powers the Sun and stars, and show the efforts being made to harness that potential as a new source of clean, abundant and safe energy. Visitors will have the opportunity to download a mobile application for a truly interactive experience.

The exhibition is open, free of charge, in Marseille from 8 October through 19 December. (See information in English and French.) After Marseille, Fusion, Power to the People will travel across Europe.

The University of Manchester is hosting a virtual event on the challenges of and possible solutions to climate change from 11-14 October 2021. Over these four days, the festival will use presentations and discussion panels to share four goals: mitigation, adaptation, finance and collaboration. Each day of the event focuses on a different goal and a different question, as posed by the University of Manchester:

11 October: Mitigation

How do we secure global net zero?

12 October: Adaptation

How can we protect our communities and natural habitats?

13 October: Finance

How do we finance change?

14 October: Collaboration

How can we turn ambition into reality?

To answer that final question, ITER will be part of a panel called "Turning fusion from a dream to a reality." Sabina Griffith, Communications Officer, will represent ITER in this panel to discuss the potential of nuclear fusion as a sustainable source of energy. This panel will take place from 18-19:00 CEST, and the entire event is free and open to anyone who would like to attend.

Registration and a full schedule of events may be found at the original announcement here.

Scientists, engineers, policymakers, entrepreneurs and investors interested in fusion are invited to join the International Atomic Energy Agency's first fusion webinar on Monday, 22 November 2021. Among the planned talks on the potential of fusion as a carbon-free energy source and the technology needed to make it possible, Takayoshi Omae will present "Way Forward for the Fusion Community" on behalf of the ITER Organization. The webinar will also include a panel discussion with chair Melanie Windridge (Fusion Industry Association), who will also welcome questions from participants.

This event, hosted by IAEA's Sehila M. Gonzalez de Vicente, begins at 17:00 CEST and closes at 19:15. Participation is free, but registration is required. Please visit the original announcement, here, for registration details and more information.

The European Commission and the Industry Liaison Officers of Denmark, Sweden and Finland have organized an event to inform regional businesses about the ITER Project. Both the ITER Organization and Fusion for Energy will present during the forum, and there will also be opportunities for businesses to meet and network.

Depending on how the COVID-19 situation develops in the coming months, the Nordic ITER Business Forum may be held virtually or in-person at the Technical University of Denmark in Copenhagen. The event will take place from 19 to 20 January 2022, starting at noon CEST and ending at noon the following day.

Registration is open now—please visit the original announcement here to register.

Neil Mitchell hosts the third ITER Talks video, now available to watch on ITER's YouTube channel. The former Head of the Magnet Division gives viewers a closer look at how magnets contain and control plasma inside the tokamak.

In his presentation, Neil explains how the superconducting magnetic coils are created and used. Even minor changes within the coils can cause a shift in the magnetic field, and Neil highlights the great need for precision and care as experts work on the coils.

Future installments in the ITER Talks series will focus on other aspects of the ITER Project. Watch the third episode in the series here.

Each year, the International Atomic Energy Agency (IAEA) holds a General Conference to discuss topics of nuclear science and technology as well as budgetary and administrative issues. The 65th annual conference took place from 20-24 September 2021 at the Vienna International Centre in Austria, where a number of projects and organizations, including ITER, joined to share their progress with the world.

ITER was represented by Laban Coblentz, head of Communication. In his statement, delivered on behalf of ITER Director-General Bernard Bigot, he emphasized the benefits of the relationship between ITER and the IAEA. As ITER creates the first reactor-scale fusion device, the IAEA has the opportunity to take this blueprint and develop guidelines for fusion around the world. He also reported on ITER's assembly progress and the project's impact on the fusion community.

"Above all, the ITER Project is a tangible demonstration that multinational collaboration is possible at a practical level with countries that are not always aligned on all items," Coblentz said. "But at ITER we are working hand-in-hand toward a common goal: to leave a better legacy with regard to clean energy supply for our children and future generations."

For more information on the 2021 General Conference, see the IAEA site here.

The pursuit of fusion has led to many promising advancements in physics and technology. To highlight excellence in fusion research and innovation, and to stimulate the fusion research community to strengthen innovation and foster an entrepreneurial culture, the European Commission is offering to reward three fusion innovation proposals.

The SOFT Innovation Prize is open to researchers, research teams and industry players who would like to propose devices or methods that have been developed in magnetic confinement fusion research. Each proposal will be judged on its market potential and replicability as well as its originality.

The contest opened on 15 September 2021 and will close on 18 January 2022 at 17:00 CEST. After the proposals have been reviewed, prizes will be awarded at the 32nd Symposium on Fusion Technology (SOFT) in September 2022.

To learn more or submit a proposal, see the original announcement here.

From 5-6 October, FuseNet is hosting a virtual event for students pursuing their master's degree at a European university in fusion-related fields. The program will mix educational and social events so students can meet and network while learning about the industry and science of fusion. Speakers will present on different aspects of fusion to the whole group or in smaller side sessions.

On the second day of the event, there will be a Fusion Power Pitch competition that invites attendees to present for 180 seconds on a fusion topic of interest. However, due to the limited time of the event, only 15-20 presentations will be selected and FuseNet asks applicants to add a short pitch to their registration form if they would like to participate in the Fusion Power Pitch.

The event starts on 5 October at 9:00 CEST and ends the following day at 18:00. To learn more, please see the original announcement on FuseNet's site here. (Registration is still possible, but participation in all events cannot be guaranteed.)

Until 15 October, the European agency Fusion for Energy is holding an open call for European companies and organizations to send in applications for proposals of non-fusion applications of fusion technologies and processes. Fusion has brought new advances in science and technology, and some of these innovations may be useful in other contexts outside of fusion.

This open call encourages applicants to think creatively and practically; Fusion for Energy will evaluate applications based on their feasibility, their innovation potential and their socio-economic impact on the company and ecosystem. Once the open call ends, Fusion for Energy will select one application to receive EUR 35,000 in funding. The results will be announced around January 2022.

On 21 September, there will be an information and Q&A session so interested parties may learn more. The event will start at 11:00 CEST and will run until noon, allowing for presentations from Fusion for Energy and for audience questions. Registration for the information session may be found here.

For more details about the open call and how to submit an application, visit the original announcement by Fusion for Energy here.

The ITER Talks series was introduced over the summer as a new outlet to educate viewers on the ITER Organization and fusion science. The first video, available for viewing here, was hosted by Laban Coblentz, head of Communications, and served as a general introduction to ITER.

The second instalment, just released, delves into one of the major machine components: the blanket. René Raffray, ITER's Blanket Section leader, presents the many functions of the blanket system and the process of its construction.

René also recounts the history of blanket design, as it adapted to new knowledge uncovered over the years. The current design is complex, with many smaller pieces that must come together before the blanket is ready to be installed. Once the blanket is complete, it will act as a shield to protect the vacuum vessel from the energy produced by the fusion reaction.

Watch the second episode of the ITER Talks here.

Friday, 3 September, Climate Now released a podcast and video episode featuring Aneeqa Khan, Research Fellow in Nuclear Fusion at the University of Manchester (and former Monaco-ITER Postdoctoral Fellow), and Sir Steven Cowley, director of the Princeton Plasma Physics Laboratory. These experts discussed the current engineering hurdles in developing a sustainable fusion reaction and the future of fusion as a competitive energy source.

Climate Now is a multimedia resource that explains the key scientific ideas, technologies and policies relevant to the global climate crisis. Their mission is to provide policy makers, business leaders, investors and journalists with the scientific and economic context necessary to make good decisions about policy formulation, capital allocation and narrative focus.

Listen to the podcast here, or watch the video here.

The European Fusion Education Network, FuseNet, is organizing its second annual European Fusion Teacher Day on 1 October 2021. Open to all secondary school science and physics teachers in Europe, the virtual event aims to introduce educators to nuclear fusion and exchange about how the subject can be taught in school. The ultimate goal is to increase exposure of students to the subject at the secondary level in order to spark interest and enthusiasm in the field.

Because the event is open to educators across Europe, the half-day program begins with local sessions via Zoom. After the local sessions, participants will come together for a global livestream from 15.00-17.00 CEST before returning to a local follow-up session. The ITER Organization is one of the featured participants during the global livestream. 

Participation is free and registration is open now. See this page to learn more.

Three hundred teachers participated in last year's event. Read more about the first European Fusion Teacher Day here.

The journal Fusion Engineering and Design has published an article reporting research done by George Washington University's Business School on the growth of fusion patent filings. This paper, written by Elias G. Carayannis and John Draper, and entitled "The growth of intellectual property ownership in the private-sector fusion industry," examines the increase in applications for fusion-related patents over the past several years.

In particular, Carayannis and Draper focus on the patents of Fusion Industry Association (FIA) members. FIA is a US-based trade association and brings together private-sector fusion energy companies. This paper not only examines how many patents these FIA members have introduced, but also organizes the patents by type to show the variety of technology being created and protected as intellectual property. Most of these patents have not yet been granted, but the increase of filing activity highlights the rapid expansion of fusion projects and technology in recent years.

See the full article here. (Elias G. Carayannis, John Draper (2021), The growth of intellectual property ownership in the private-sector fusion industry, Fusion Engineering and Design, Volume 173, 112815, ISSN 0920-3796.)

On Friday, 20 August, the Homo-Science Marathon took place in Nizhny Novgorod, Russia. The event was organized by Rosatom and the Znaniye Foundation for the purpose of discussing recent scientific accomplishments and building a bridge between fundamental and applied research.

The Marathon was opened by Rosatom CEO Alexey Likhachev. ITER Senior Advisor Alexander Alekseev presented the ITER fusion project and Lei Chen, one of the ITER-Monaco postdoctoral researchers, talked about her personal motivation in pursuing a career in fusion science.

See this link to the event: https://homo-science.ru/

The UK Atomic Energy Authority (UKAEA) holds an annual art competition, "The Art of Fusion," so residents of the United Kingdom can display their artistic skills while highlighting the beauty and complexity of fusion science. This year, the theme of the contest shifts specifically to sustainability and the role of fusion as a sustainable source of energy. Entrants are encouraged to recycle materials for their artwork and get creative with the theme of sustainability.

The winners and runners-up of the competition will be invited to tour the Culham Science Centre in South Oxfordshire. The winners' artwork will be showcased on the UKAEA website and printed on postcards to be used at UKAEA events.

The competition opened on 22 July and will close on 16 September. Judging is split into three age categories: 7-12 years, 13-17 years, and 18 years and older. Entries are accepted via the UKAEA's website, and further details on the competition can be found there as well.

Are you currently a fusion or plasma physics master student, or are you starting next academic year? Looking for an opportunity to meet the community and learn more about this fascinating subject?

On 5 and 6 October 2021, FuseNet (the European Fusion Education Network) is organizing its first-ever Master Event. All master students in fusion-related fields are welcome to join the online event. The event will be interesting to both students who are just getting started in fusion, and to students who are graduating. In two days, you will learn about state-of-the-art fusion topics and the role of industry in interactive lectures.

During the casual social events you will meet fusion students from all over the world, and create a network of future colleagues.

To register, see this page.

The JT-60SA tokamak—a joint program of fusion research and development agreed and co-financed by the European Atomic Energy Community (Euratom) and the government of Japan—entered its integrated commissioning phase in late 2020, after a six-year project to modify and modernize the existing JT-60U tokamak at the Naka Fusion Institute in Japan.

During the step-by-step integrated commissioning process, the air was first evacuated from the vacuum vessel and surrounding cryostat before the device's superconducting magnets were slowly cooled to the temperature of 4 K (- 269 °C). Next, the vacuum vessel was "baked" to 200 °C to rid it of moisture and any possible residual contaminants. Finally the magnets were energized—first independently and then as a full group.

In March 2021, during the coil energization test of poloidal field coil EF1, feeder joints were damaged. Experts from both Japan and Europe investigated the cause of the damage and determined that the joints of the EF1 feeders needed to be reinforced with greater insulation.

Repairs will be carried out on the incriminated joints and others to prevent recurrence of the incident. Once the repairs and improvements are completed, EF1 will undergo further testing to determine that it can withstand even worst-case conditions and ensure that it is ready for operation.

JT-60SA integrated commissioning is expected to resume in February 2022.

Find out more on the JT-60SA website.

Thanks to a newly-installed actively-cooled exhaust, the German stellarator Wendelstein 7-X at IPP Greifswald will be able to maintain its fusion plasma for up to 30 minutes—a fusion milestone.

On Friday 18 June 2021, the last of a total of 60 divertor modules was installed in the Wendelstein 7-X plasma vessel. With this, an extremely important technical milestone was reached and, after 20 months of assembly time, all actively-cooled divertor target modules have now been successfully integrated. 

The current engineering shutdown will continue throughout the year so that a new and improved W7-X can restart its fusion experiments in 2022. According to the current plan, the assembly of the remaining vessel installations, including rework, can be completed by 9 December 2021.

Read the original story here.

On 29 July 2021, join the Head of the Japanese Domestic Agency, Makoto Sugimoto, and ITER Chief Strategist, Takayoshi Omae, for a Japanese-language webinar on the ITER Project. 

The webinar is open to all and is free of charge. The panelists will introduce nuclear fusion, give the latest updates on the ITER Project, and take questions from participants.

See all information at this link.

The European Fusion Education Network, FuseNet, is organizing the second annual European Fusion Teacher Day on 1 October 2021. Open to all secondary school science and physics teachers in Europe, the virtual event aims to introduce educators to nuclear fusion and exchange about how the subject can be taught in school. The ultimate goal is to increase exposure of students to the subject at the secondary level in order to spark interest and enthusiasm in the field.

Because the event is open to educators across Europe, the half-day program begins with local sessions via Zoom. After the local sessions, participants will come together for a global livestream from 15.00-17.00 CEST before returning to a local follow-up session. The ITER Organization is one of the featured speakers during the global livestream; other representatives of the international fusion community will be announced soon. 

Participation is free and registration is open now. See this page to learn more.

Three hundred teachers participated in last year's event. Read more about the first European Fusion Teacher Day here.

IAEA Technical Meeting on Fusion Data Processing, Validation and Analysis will take place from 30 November to 3 December 2021 in Chengdu, China, with both in-person and remote participation foreseen.

The objective of the meeting is to provide a forum for discussing topics of relevance to fusion data processing, validation and analysis with a view to addressing the needs of next-step fusion devices such as ITER. The validation and analysis of experimental data obtained from diagnostics used to characterize fusion plasmas are crucial for a knowledge-based understanding of the physical processes governing the dynamics of these plasmas. The meeting aims, in particular, at fostering discussions about research and development advancements in these topics made in the current major fusion confinement devices. A special focus will be placed upon data analysis for ITER and DEMO, with particular attention paid to opportunities for the use of Artificial Intelligence for control activities.

More details, including how to contribute, can be found here.

An article published in History and Technology on 1 June 2021 explores ITER's history of diplomatic negotiations. A project of such magnitude, author Anna Åberg points out, requires collaboration and compromise as people from vastly different backgrounds come together to create a complex machine.

"This is true not only for the top-level politicians," Åberg writes, "[but also] all the way down to the work site itself where German welders may work under Indian supervision following French nuclear-safety protocols."

Collaboration within ITER has changed over time as the project becomes more complex and participants face a variety of new challenges. The realization of the ITER machine is only possible when everyone is willing to compromise and come together to solve evolving issues.

Read the original article here.

A high-performance fusion regime called Super-H mode is being used on the DIII-D tokamak (US) to test methods to control heat and particle flow at the edge of the fusion plasma. 

The theoretical model for Super-H Mode was developed several years ago by researchers at General Atomics (which operates DIII-D for the US Department of Energy's Office of Science), the University of York (UK), and the Culham Centre for Fusion Energy (UK). It works by increasing temperature and pressure in the outer region of the plasma, called the pedestal. Higher pressures and temperatures at the pedestal lead to much higher fusion performance in the core.

The new approach uses advanced control algorithms and optimized methods of cooling the edge of the plasma without excessively degrading reactions in the core. The results identify a pathway for increased performance at ITER and the fusion power plants that will follow.

Read the full press release here.

-- Image courtesy of General Atomics.

The ITER Organization has added a permanent virtual visit option to its visit program.

Developed in reply to the COVID-19 pandemic and the necessary restrictions to in-person visiting, the virtual visit now co-exists alongside other options, including individual and group visits, on the ITER webpage dedicated to visitors.

The virtual visit option will remain available to the public even after COVID-related restrictions end, allowing fusion aficionados from around the globe a chance to better appreciate the progress on the ITER construction site.

What can you expect from a virtual visit? In approximately 90 minutes, the ITER visit team will introduce you to the world of fusion, before explaining the ITER Project in detail. Highlights include a video shot by drone and a tour of all the main buildings on site through immersive 360° images.  

If you are interested in booking a virtual visit of ITER, please see the Visits page of the ITER website and click on "Virtual Visits." The calendar indicates the open slots for group or individual virtual visits in either English or French.  

Come and join us. We look forward to welcoming you (virtually) to ITER!

--The ITER Visits team

Four Danish universities have collaborated to create DANfusion, a government-funded consortium allowing researchers to work together and share resources as they study fusion physics and engineering. DANfusion includes research groups from the Technical University of Denmark, Aarhus University, Aalborg University, and the University of Southern Denmark.

Through DANfusion funding, researchers will have the opportunity to visit national and international fusion experiments to gain greater knowledge in their field, and to accumulate hands-on experience through fusion-relevant summer schools and resources like the Technical University of Denmark's NORTH tokamak.

The overarching goal of DANfusion is to strengthen the bond among national scientific communities through shared knowledge and united research efforts.

Read the EUROfusion announcement here.

The Stellar Energy Foundation and co-host Fusion Industry Association are holding a webinar, entitled "Mobilizing Investment into Fusion Energy," on 24 June 2021.

The event features Ralph Izzo, the Chairman, President and CEO of Public Service Enterprise Group Incorporated (PSEG), and Paul Dabbar, former Under Secretary for Science with the U.S. Department of Energy. The moderator, Chris Gadomski, is the Head of Research, Nuclear at BloombergNEF.

The webinar will take place from 22:00-23:00 CEST. There is no fee to attend, but please contact kfortini@stellarenergyfoundation.org to be added to the invitation database.

Read the original event announcement here.

A video recording of the webinar is available here.

The ITER Organization plans a regular, one-week ITER International School for young scientists and engineers around a specific theme. The School locations alternate between France and one of the seven ITER Members. 

Before the global pandemic made travel and gathering impossible, a 2020 ITER International School, co-organized with Aix-Marseille University (France), was planned on the topic of "The Impact and Consequences of Energetic Particles in Fusion Plasmas." First pushed back to 2021, the decision has now been made to hold this School in summer 2023. More details will be provided on the re-scheduled IIS 2020 in autumn 2022 on this ITER webpage.

In the interim, a summer 2022 ITER International School will be hosted by the US Burning Plasma Organization. Further details will be published about IIS 2022 on the ITER website in autumn 2021.

The 29th biennial IAEA Fusion Energy Conference will be held in London in October 2023, hosted by the UK Atomic Energy Authority's Culham Centre for Fusion Energy. Further details on the event will be shared as information becomes available.

Watch the original announcement by UKAEA here. 

A virtual symposium on fusion research will take place on Friday, 18 June, from 1:30-6:00 p.m. CEST.

This event is organized by PhD students Richelle Boone (Leiden University) and Michiel Bron (Maastricht University), and aims to explore fusion from the perspectives of social sciences and the humanities. The symposium will feature seven sessions with experts presenting the historical, philosophical, sociological, economic and political aspects of fusion.

The symposium is free to attend, but registration is required.

See the event page here.

(P.S. The event was recorded and can be viewed back through this link.)

The International Atomic Energy Agency (IAEA) publishes a quarterly Bulletin dedicated to educating readers on nuclear technology and its peaceful uses. The latest volume of the Bulletin explores the possibilities of fusion.

The Bulletin contains thirteen articles that explain the mechanics of fusion and highlight a few of the fusion projects currently developing around the world, including the ITER project. An article written by Wolfgang Picot, entitled "ITER: The World's Largest Fusion Experiment," offers a snapshot of ITER's progress in making fusion a reality.

The IAEA Bulletin, both current and past, is free to browse online. Find the latest issue on fusion here.

The International Atomic Energy Agency, supported by the European Fusion Education Network FuseNet, is about to release a new textbook on fusion technology. The publication is a follow-up to the IAEA textbook on fusion physics, which is consultable here. 

All Bachelor, Masters and Doctoral students of fusion are invited to submit a cover design proposal, in a Book Cover Contest that ends on Wednesday 30 June 2021. 

See all information and instructions on the FuseNet website.

Organized every two years by CEA Cadarache (France) and the Institute of Nuclear Physics PAN (Poland), the PhDiaFusion Summer School of Plasma Diagnostics is designed for graduate students and their tutors in the spirit of a "master and apprentice" approach.

The next edition will be held from 20 to 24 September 2021 on the topic of "Neutron diagnostics development for ITER, DEMO and IFMIF-DONES." 

For all information visit this page.

The 28th IAEA Fusion Energy Conference (FEC 2020) kicks off in just one week on 10 May 2021. For anyone who would like to join as an observer, you must register through this link by 7 May 2021. (Please note: observers can watch all presentations, but will not have access to the Q&A feature of the virtual platform or be able to interact.)

The biennial Fusion Energy Conference is the premier gathering for the international fusion science community. It fosters the exchange of scientific and technical results in nuclear fusion research and development and provides a forum for the discussion of key physics and technology issues as well as innovative concepts of direct relevance to the use of nuclear fusion as a future source of energy.

The 28th IAEA Fusion Energy Conference will be held as a virtual web congress from 10 to 15 May 2021. Organized by the International Atomic Energy Agency (IAEA), it is supported by the Government of France through the French Alternative Energies and Atomic Energy Commission (CEA) and the ITER Organization.

To learn more about the six-day event, please visit the conference website: https://fec2020.fr/ 

The 58h Culham Plasma Physics Summer School, planned in person from 6 to 17 September 2021, is open for applications.

The aim of the Summer School is to provide an introduction to the fundamental principles of plasma physics, together with a broad understanding of its fields of application. The organizers of the School assume no previous knowledge of the subject, but familiarity with electromagnetism and applied mathematics at first degree level would be helpful. Lecturers are drawn from the Culham Centre for Fusion Energy (CCFE), the Rutherford Appleton Laboratory (RAL), and leading European universities. All are renowned experts in their fields.

The deadline for applications is 30 July.

For more details please visit: https://culhamsummerschool.org.uk/

The EPSRC Centre for Doctoral Training in the Science and Technology of Fusion Energy is accepting applications for Autumn 2021 entry (plasma strand).

Potential projects are listed on this Fusion CDT webpage. 

The Engineering and Physical Sciences Research Council (EPSRC) is the main UK government agency for funding research and training in engineering and the physical sciences. Students undertake a 4 year PhD, where the first year allows students to explore the research area and build strong expertise in their "home" discipline while developing the skills and knowledge to cross disciplinary boundaries effectively. Students also undertake a formal programme of taught coursework to develop and enhance technical knowledge across a range of appropriate disciplines, as well as enhancing skills.

Qualified overseas applicants are welcome to apply; however, the availability of fully funded positions is limited.

For all application information see this page on the Fusion CDT website.

Are you a female student or a young professional in the field of nuclear physics or nuclear engineering? Are you wondering in which area to specialize, or what the right next step in your career is? Then this IAEA webinar featuring careers for women in fusion science and technology might be the right one for you!

Five renowned female fusion experts will highlight their own career paths and what motivated them to start working and stay in this field. They will discuss the role of women in fusion science and technology, what is needed to increase the representation of female experts in this field and why fusion offers a promising career for women. 

Date: 15:00 CET on 14 April 2021
Register for the event here: https://bit.ly/2Phnggv
Password for the event: fusion1!

The 28th IAEA Fusion Energy Conference (FEC 2020) will take place on line from 10 to 15 May 2021. Deadlines are fast approaching for the submittal of documents:

Deadline for submitting manuscripts and other materials (presentations, summary slides, posters, journal articles): 9 April 2021

Deadline for submitting recorded presentations: 15 April 2021 

See the IAEA FEC 2020 website for guidelines and uploading instructions. To register as an observer complete Form A here (right margin). Potential sponsors and journalists should consult the local organizer website here.

Scientists at the DIII-D National Fusion Facility in San Diego, California, have released a new design for a compact fusion reactor that can generate electricity and help define the technology necessary for commercial fusion power. The approach is based on the "Advanced Tokamak" concept pioneered by the DIII-D program, which enables a higher-performance, self-sustaining configuration that holds energy more efficiently than in typical pulsed configurations, allowing it to be built at a reduced scale and cost.

"The key to our approach is to raise the pressure inside the tokamak," said project lead Dr. Richard Buttery. "This makes more fusion occur, allowing us to reduce the current, which in turn makes the plasma easier to sustain and more stable. Our simulations show that by carefully shaping the plasma and moving the current toward its edge, we can suppress turbulent heat losses and support higher pressures at lower currents, to reach a state where the plasma sustains itself. This enables a device that can simply be turned on, generating electricity continuously in a steady state."

Read the General Atomics press release here.

A new video issued by Fusion for Energy, the European Domestic Agency, takes us onto the shop floor at Walter Tosto where three ITER vacuum vessel sectors are in various stages of fabrication.

Each 440-tonne sector is formed from four segments, and each segment requires the same step-by-step fabrication route: contractors form and weld the inner shell, attach inner ribs and support housings, install in-wall shielding blocks, and—in the final activity to complete the segments—fit and weld the outer shell.

Europe—responsible for delivering five sectors to ITER—is working with the AMW Consortium (Ansaldo Nucleare, Mangiarotti, Walter Tosto) and an extensive network of European subcontractors. At Walter Tosto, in Chieti, Italy, teams are currently finalizing dimension checks on the sub-parts of sector #5, and completing welding on the segments of sectors #4 and #9.

Watch the two-minute video here.

Cooperative research between the DIII-D National Fusion Facility in USA and the Institute of Plasma Physics (ASIPP) of the Hefei Institutes of Physical Science (HFIPS) in China has identified a key approach to creating plasma conditions that will be necessary for steady-state operation of ITER. This new approach shows promise in avoiding potential edge instabilities in the plasma that can pose increased plasma-material interaction challenges.

Plasma instabilities known as edge-localized modes (ELMs) are a challenge to stable operation of fusion reactors. Effective ELM control is particularly important in high-confinement, steady-state fusion plasmas such as ITER. The research at DIII-D and EAST found that maintaining high density at the edge of the plasma and a high density ratio between the pedestal bottom and top can reduce the severity of ELMs.

"Combining ELM control with high fusion performance will be critical for efficient operation of ITER and the power plants that come after it," said XU Guosheng. "These results are an important step toward practical fusion energy."

One approach to ELM control has been creating plasma conditions in which ELMs may occur, but are much smaller. Known as "grassy" ELMs, these conditions have been achieved on other devices, but often under parameters that are not suitable for large, long pulse devices like ITER. Experiments on DIII-D demonstrated a grassy ELM regime at an ITER-relevant parameters.

Read the full press release here.

In lieu of an in-person ITER Business Forum this year, the ITER Organization is planning a two-day Remote ITER Business Meeting, from 6 to 7 April 2021.

The purpose is the same: to inform the business community about upcoming contract opportunities at ITER and to create the opportunity for businesses to meet and plan together through B2B meetings.

It will also be possible to meet project specialists in one-to-one Skype sessions on a variety of topics, including how to set up a business in the south of France with the Welcome Around ITER network and specific contract opportunities (Hot Cell, maintenance services, Tritium Plant, remote maintenance, and European contract opportunities through Fusion for Energy).  

To participate, fill out your pre-registration form on this website: https://www.iter.org/ribm2021. The deadline is 6 April 2021.

The EUROfusion consortium has announced the award of 16 fusion energy research grants across Europe for the development of innovative new ideas and techniques.

EUROfusion makes grants available on behalf of the European Commission's Euratom program. In its meeting on 3 March 2021, the General Assembly of EUROfusion selected 16 out of 72 Enabling Research proposals based on the recommendations of the scientific boards in four research categories. EUROfusion will invest a total of € 20.1 million in these projects, of which € 9.9 million comes as a contribution from the consortium.

The four research categories are: materials, theory and modelling, technology and systems, and inertial fusion. 

View the list of the recipients and their projects on the EUROfusion website.

The 18 toroidal field magnets of the JT-60SA tokamak in Japan are now fully energized at a current of 25.7kA. Reaching the full design magnetic field for this coil set is another step of the commissioning activities underway on this collaborative project, financed and executed jointly by Europe and Japan. 

Each of the 18 coils is 7.5 metres high and 4.5 metres wide; together they weigh 370 tonnes. They produce a magnetic field running around the torus that has a strength of 2.25T at the centre of its cross section. This field is fundamental to confining the superheated plasma of the tokamak.

The successful generation of the toroidal field demonstrates the simultaneous operation of numerous tokamak systems, in particular the cryoplant, cryodistribution, the cryostat, the thermal shields, power supply, instrumentation, and central control. The commissioning phase will culminate with first plasma later this year. 

More information here.

An article published on 22 February 2021 in Nature highlights the importance of the upcoming campaign on the JET tokamak (UK) for ITER.

"Nuclear fusion experiments with deuterium and tritium at the Joint European Torus are a crucial dress rehearsal for the mega-experiment," writes author Elizabeth Gibney. "JET's experiments will help scientists to predict how the plasma in the ITER tokamak will behave and to craft the mega-experiment's operating settings."

Chief ITER scientist Tim Luce agrees. "It's the closest we can get to achieving ITER conditions in present-day machines."

JET will be running experiments with hydrogen isotopes tritium and deuterium—the very fuel mix that ITER will use. Some experiments will use just tritium; others will combine deuterium and tritium in equal proportions. Both types of experiment are important, the author explains, because a key goal is to understand the effect of tritium's larger mass on plasma behaviour (tritium has two neutrons in its nucleus, whereas deuterium has one and hydrogen has none). That will help in predicting the impact of using different isotopes in ITER.

Read the full article here.

"A [US] fusion plant is still years away, but it is definitely getting closer."

So concludes the Editor-in-Chief of Nuclear News, the American Nuclear Society's flagship publication, in the preface to the January 2021 issue. Nuclear News dedicates more than 50 pages to fusion energy, at a time when there is an increasing groundswell of interest in fusion in the United States and coalescence around the idea of constructing a fusion pilot plant. 

Highlights include a major contribution by ITER Director-General Bernard Bigot on the role of ITER; an article on public/private partnerships as the ideal way of advancing technology; features on fusion safety and the regulatory environment; input from startups looking to commercialize fusion energy; and an editorial by US ITER Project Office Director Kathy McCarthy, Associate Laboratory Director for Fusion and Fission Energy and Science at Oak Ridge National Laboratory.

See a preview of the issue, or subscribe on the American Nuclear Society's website.

The National Academies of Science, Engineering and Medicine has released a report calling for the construction in the US of a 50-megawatt pilot fusion power plant.

At the request of the US Department of Energy (DOE), a committee of 12 scientists has written Bringing Fusion to the U.S. Grid, with the aim of providing guidance on the key goals and innovation needed to build an electricity-producing fusion power plant at lowest possible capital cost.

This is the third major US report on fusion in 24 months.

• - In 2019, the National Academies published the Final Report of the Committee on a Strategic Plan for U.S. Burning Plasma Research, recommending 1) that the US remain a partner in ITER "as the most cost-effective way to gain experience with a burning plasma at the scale of a power plant," and 2) that the US start a "national program of accompanying research and technology leading to the construction of a compact pilot plant." (Read more here.)
• - In March 2020, hundreds of scientists representing a broad range of national labs, universities, and private ventures released A Community Plan for Fusion Energy and Discovery Plasma Sciences. It offers a consensus view of the bold steps to take nationally to deliver fusion energy and advance plasma science in the United States, including maintaining participation in ITER. (See more here.)

The new publication builds on both reports.

"Fusion energy offers the prospect of addressing the nation's energy needs and contributing to the transition to a low-carbon emission electrical generation infrastructure. Technology and research results from U.S. investments in the major fusion burning plasma experiment known as ITER, coupled with a strong foundation of research funded by the Department of Energy, position the United States to begin planning for its first fusion pilot plant. Strong interest from the private sector is an additional motivating factor, as the process of decarbonizing and modernizing the nation's electric infrastructure accelerates and companies seek to lead the way."

Read the full report here.

Or view the slides from a recent webinar on the report.

The JT-60SA tokamak—just a few months from its first plasma as the updated "Super Advanced" satellite for ITER—has launched a new website.

The site features updated content and style, and aims to provide a wide audience, including students, the press, researchers and members of the general public, with information and regular status updates on JT-60SA.

Since the completion of assembly, the Japanese and European joint team is now preparing the device for first plasma, which is planned for spring 2021. Integrated commissioning is underway, including cooldown and progressive coil energization. 

Read all about it on the new JT-60SA website.

Because the mechanical and thermal properties of materials can change substantially under neutron irradiation, one of the major challenges for the demonstration of fusion electricity is to develop neutron-resistant materials.

As part of the EUROfusion Roadmap to the Realisation of Fusion Energy (here), the Belgian nuclear research lab SCK CEN tested ITER baseline structural materials like tungsten, copper and steel during a lengthy regimen of high heat and intense neutron radiation flux. Inside SCK CEN's fission research reactor BR2, the material samples spent two years facing a temperature of up to 1200 degrees Celsius in a hail of neutrons from uranium fission.

SCK CEN will now partner with other European research labs to investigate how the high speed neutrons have impacted the thermo-mechanical properties of the irradiated samples.

Read the full report on the EUROfusion website.

--Image: A basic plasma-facing unit consisting of a tungsten block and a copper cooling water pipe. Source: SCK CEN

Harnessing fusion energy will provide humankind with a virtually unlimited, clean and safe energy source. It might also open the way to a new, superfast way of exploring the solar system and beyond.

Using the power of fusion to propel rockets to velocities otherwise unattainable, and hence dramatically shortening the duration of space travel, is not a new idea: at space agencies throughout the world, nuclear fusion propulsion has been on the agenda for decades.

The latest news in the field, however, does not come from a space agency but from the Princeton Plasma Physics Laboratory (PPPL), one of the major plasma research institutions worldwide. A few years ago, Fatima Ebrahimi, a principal research physicist there, began thinking about "the similarities between a car's exhaust and the high-velocity exhaust particles created by PPPL's National Spherical Torus Experiment (NSTX)." During operation, she reflected, "NSTX produces magnetic bubbles called plasmoids that move at around 20 kilometres per second, which seemed to me a lot like thrust."

Ebrahimi nurtured and streamlined the concept for a few years and, in December 2020, introduced it in the Journal of Plasma Physics. The title ("An Alfvenic reconnecting plasmoid thruster"*) was rather austere but the content quite mind-boggling: according to simulations, Ebrahimi's plasma thruster could eject particles at velocities of up to 1,500 kilometres per second. All of sudden, Mars and the moon of Jupiter are appearing much closer.

Read a detailed article on the PPPL website.

*Ebrahimi, F. (2020). An Alfvenic reconnecting plasmoid thruster. Journal of Plasma Physics, 86(6), 905860614. doi:10.1017/S0022377820001476

 

Due to Covid-19 pandemic and related global restrictions, the Local Organizing Committee of the 28th IAEA Fusion Energy Conference (FEC2020) has decided, in collaboration with the IAEA, to hold the conference on a virtual platform with the same dates maintained, from 10- 15 May 2021.

In addition to a full program, which will be available globally in appropriate time zones for each audience, we will also ensure opportunities for sponsoring and networking. If you are a potential sponsor and interested in finding out more about these opportunities, you can contact us at sponsor@fec2020.fr. 

Consult the FEC 2020 scientific program here.

Registration opens on 1 March 2021; more information at https://fec2020.fr/.

 

On 22 December 2020, the Fusion Energy Forum of Japan (FEFJ) held its annual Symposium on the ITER Project and Broader Approach* activities. Featuring speakers from government, business, academia, and science, the 3.5-hour event covered fusion energy policy in Japan, progress in domestic and international fusion projects (including ITER and the Broader Approach), frontiers of research, and industrial applications.

See all speakers and presentations at this link. 

Watch the event on YouTube in Japanese or with a voiceover in English.  

* The Broader Approach activities, financed by Europe and Japan, aim to accelerate the realization of fusion energy. Find out more here.

The European Domestic Agency for ITER, Fusion for Energy, has opened a contest to reward companies for the commercial use of fusion technologies in non-fusion markets. 

Open to all European companies and organizations, the Technology Transfer Award competition aims to encourage and promote projects where a fusion technology or know-how is used or is planned to be used outside of fusion applications.

Applications will be evaluated according to the resources and efforts deployed by the candidate to achieve commercial use of the technology in a non-fusion market, as well as the socio-economic impact of the project on the market. The selected project will receive a sole prize of €10,000.

Applications are open from 18 January 2021 to 18 March 2021 at this link.

As part of its countdown to first plasma, the JT-60SA tokamak has entered the coil energization phase. Superconducting coil EF2 has been supplied with up to 1 kA of power. 

This major commissioning milestone comes after the recent completion of the cooldown of the magnet system to 4.5 K and the completion of power supply testing. In the next days the current supplied to EF2 will be gradually increased as the quench detection circuits and the power supply controllers are tuned.

JT-60SA is a collaborative project, financed and executed jointly by Europe and Japan under the Broader Approach agreement. Following a six-year upgrade program, the teams expect to begin experiments imminently.

Read more about the project here.

ITER Russia (ROSATOM) has teamed with documentary film makers to create a 38-minute feature on fusion and ITER called "On the Way to the Sun" (На пути к Солнцу). 

In 2021, the film makers will present it at leading international and domestic festivals.

You can view it free of charge on YouTube (in Russian) at this address.

From 19 to 25 November 2020, an independent expert panel reviewed EUROfusion's R&D and design work on DEMO, Europe's future demonstration fusion power plant. Following this in-depth review, the next step of the European Roadmap to Fusion Energy, the conceptual design phase, can begin.

EUROfusion is taking a staged approach to designing DEMO, with industry-standard review practices including a gate review process. Each project phase is reviewed by a panel of independent experts before the project can advance to the next phase. This allows the DEMO team to learn from the experience of ITER and guarantees that DEMO has the support and involvement of the European fusion community and the companies that will design and construct it.

Read more about the DEMO gate review on the EUROfusion website.

 

The International Atomic Energy Agency (IAEA) and the European Fusion Education Network (FuseNet) are calling on fusion enthusiasts around the world to review scientific literature and online resources to find as many zero-dimensional, or independent, design parameters as possible for active fusion tokamak and stellarator experimental reactors in the IAEA's interactive Fusion Device Information System (FusDIS) database. The data collected through the challenge, which is aimed at students and young professionals with an understanding of fusion without being experts, will prove useful for simulations, modelling and design studies to advance fusion research.

The challenge is looking for submissions that include the following parameters: radii, plasma current, magnetic field strength, material composition of device wall and divertor, plasma shape, elongation and triangularity.

Participants have until 31 January 2021 to submit their answers here.

Click to see the IAEA and FuseNet announcements.

A new fusion documentary follows the efforts underway at ITER, JET, and First Light Fusion to realize "the ultimate energy solution."

Produced by Bigger Bang Communications (UK) and narrated by actor Patrick Stewart (known for his distinct voice), the 60-minute film is part of a six-part series called Engineering the Future. "A global industrial revolution is underway, driven by passionate, dedicated individuals intent on shaping a new world. A cleaner world. A greener world. Together, they are pushing engineering to its limits to create extraordinary machines that can protect our planet for the future."

The episode on fusion can be viewed on Curiosity Stream and HBO Max (paywalls).

In a paper published this month in Nature Energy, a team from the Universidad Nacional de Educación a Distancia (UNED, Spain) offers the scientific community a "full and heterogeneous model of the ITER Tokamak" for comprehensive nuclear analyses.

"Nuclear analysis is a core discipline in support of the design, commissioning and operation of the machine. To date, it has been conducted with increasingly detailed partial models, which represented toroidal segments of the tokamak. However, the limitations of this methodology became evident as estimates of quantities relevant to design, safety and operation showed unquantifiable uncertainties, which is a risk. [...] Thanks to increasing high-performance computing capabilities and improvements in the memory management by the codes over the years, it is now feasible to take an important step forward. In this work, we present a 360° heterogeneous and detailed MCNP model of the ITER tokamak, which we call E-lite. It can be used to determine all the quantities relevant to the ITER's nuclear operations without the aforementioned uncertainties."

The main authors—Rafael Juarez, an associate professor at UNED, and Gabriel Pedroche, a PhD student in the same research team—worked closely with colleagues from ITER and the European Domestic Agency (Fusion for Energy). Key contributions came from Michael Loughlin, Eduard Polunovskiy and Yannick Le Tonqueze from the ITER Organization, and Raul Pampin and Marco Fabbri from Fusion for Energy.

Follow the link below to consult the article:

Juarez, R., Pedroche, G., Loughlin, M.J. et al. A full and heterogeneous model of the ITER tokamak for comprehensive nuclear analyses. Nat Energy (2021). https://doi.org/10.1038/s41560-020-00753-x 

 See a related report by Fusion for Energy.

On Wednesday 13 January 2021, the Stellar Energy Foundation and Pegasus Fusion Strategies are co-hosting a webinar-style workshop titled "Energy, Environment, Innovation: Fusion's Promise for our Climate."

Join featured speakers Laban Coblentz, Head of Communication at ITER, and Dennis Whyte, Director of the MIT Plasma Science & Fusion Center and Hitachi American Professor of Engineering at MIT, for a thought-provoking discussion of the state of energy supply and demand today, the effort to mitigate atmospheric CO2, and the possible role of fusion energy.

Is fusion power a realistic green energy option for combating climate change? Should private sector fusion projects be given priority over large multinational projects such as ITER? Can we rely on renewables like wind and solar to avoid climate change?

The 90-minute webinar (11:30 a.m. — 1:00 p.m. US Eastern time) will be moderated by Chris Gadomski from BloombergNEF.

Update 18 January 2021: The recording of the webinar can be found at this link.

This month, the ITER community respected time-honoured Provencal traditions by installing a crèche and a Christmas tree in the lobby of ITER Headquarters. The new mayor of Saint-Paul-lez-Durance, André Gomez, and deputy-mayor in charge of communication, Elise Placé, were by Director-General Bernard Bigot's side for the tree lighting on 1 December. (The tree was offered by the village of Saint-Paul.)

Researchers at the Centre for Energy Research, Hungary, will test key elements of the ITER disruption mitigation system in a dedicated support laboratory.

The technology group, led by Uron Kruezi, of the ITER Disruption Mitigation Task Force has awarded a multi-year contract to the Centre for Energy Research (EK), together with several Hungarian companies, for the development of a laboratory to test key components of ITER's disruption mitigation system (DMS). The DMS will use a technique called shattered pellet injection that creates small ice fragments by shattering a single large cryogenic pellet of hydrogen and neon. These fragments will then enter the plasma to protect the in-vessel components from the large heat fluxes generated during disruptions. One of the lab's first tasks will be to study the pellet fragmentation process, and to design a pellet shattering unit that produces those fragment sizes that are most effective in mitigating disruptions.

The studies carried out under this contract are part of a wider technology program that ITER carries out with its partners. This program addresses for example the optimization of the pellet formation process, the development of an optical pellet diagnostic to measure pellet velocity and integrity, as well as technology development for accelerating the pellet towards the plasma.

Click here to see the press release issued by the Centre for Energy Research on the contract award.

--Conceptual design of the test stand to study the pellet shattering process.

The ITER Organization has kicked off its 2021 internship program with the publication of 116 offers on the ITER website (visit Jobs/Internships here: https://www.iter.org/jobs/internships).

These opportunities are geared toward undergraduate and postgraduate students, with a broad array of topics across scientific, technical and support departments. Control and data acquisition, systems engineering, business operations, construction and installation, safety and security, and science and technology are all represented in this year's batch of internship opportunities.

Positions are offered for up to six months; some categories are extendable to one year. Apply before 28 February 2021 through the online e-recruiting system. (Please note that internship opportunities are limited to nationals from countries participating in the ITER Project, i.e., China, the European Union plus Switzerland, India, Japan, Korea, Russian Federation and the United States.)

The JT-60SA fusion experiment in Naka, Japan, has entered its integrated commissioning phase—one of the last steps before first plasma. This collaborative project, financed and executed jointly by Europe and Japan under the Broader Approach agreement, will soon be running experiments to support the operation of ITER and to investigate how best to optimize the design and operation of fusion power plants built after ITER.

Preparing the newly upgraded device for its first plasma is step-by-step operation that began with the evacuation of all air from the vacuum vessel and surrounding cryostat, and was followed by the current phase of slowly cooling down the device's superconducting magnets to the temperature of 4 K (- 269 °C). This phase started on 10 October 2020 and is expected to last several weeks. (You can follow the progression of cooldown here.) 

Once the magnets reach the desired temperature, the team will heat up the vacuum vessel to 200 °C to rid it of moisture and any possible residual contaminants. Energizing the magnets come next, first each magnet separately before the full group together. The final step, before injecting hydrogen for making a plasma, is to test the electron cyclotron resonance heating.

Read more at Fusion for Energy.

The ITER Project has been selected as one of the world's most influential projects by the Project Management Institute in its 2020 ratings, released in November.

The professional organization's Top 50 list singles out "compelling efforts across industries and around the world that have achieved significant milestones" during the year. "In a time of uncertainty and upheaval, bold projects are paving the way to a new future." Each effort is "a distinct masterclass in how to navigate change and deliver results."

The ITER Project is #34 overall and #3 in the Top 10 list for projects in the domain of energy, recognized for "boldly exploring next-gen nuclear energy."

Find out more here: https://www.pmi.org/most-influential-projects.

The list of ITER Technical Reports available on the public website continues to grow.

These reports, freely downloadable, aim to make the results of scientific and technical activities carried out under the ITER Agreement widely available.

Typically, they are versions of internal reports that have been deemed of interest for the wider scientific and technical community, but that have not been submitted for conventional publication in scientific journals or books.

View the growing list here : https://www.iter.org/technical-reports

Whether in person or virtual, the world's largest fusion conference will forge ahead: FEC 2020 will be maintained for 10-15 May 2021 with the now-finalized scientific program.

The International Atomic Energy Agency (IAEA), together with the Local Organizing Committee, is currently reviewing the evolving COVID-19 situation and its impact on the conference. 

A decision whether to maintain a physical conference or move to a virtual event will be taken in early 2021. You will be kept informed.

So be ready to join us at the 28th IAEA Fusion Energy Conference (FEC 2020) whatever its format, as the fusion show must go on. We look forward to seeing you there!

For more information about the conference and updates regarding the program, please visit the website.

The Governing Board of the European Domestic Agency for ITER, Fusion for Energy, announced on 29 September that it has extended the contract of the current Director, Johannes Schwemmer, through 31 December 2023. Mr. Schwemmer has led Fusion for Energy since 1 January 2016.

"This unanimous decision shows that Mr Schwemmer has the full support of the Governing Board to continue to lead Fusion for Energy," said Chair Beatrix Vierkorn-Rudolph. Massimo Garribba, Deputy Director-General of the European Commission Directorate-General for Energy and Euratom's representative to Fusion for Energy's Governing Board, "[...] looks forward to his continued dedication to this international flagship project."

Read the full news article on the Fusion for Energy website.

The international fusion community lost a major contributor when Dr. David Swain passed away last month. His contributions to the advancement of experimental and theoretical plasma physics and technology spanned more than half a century during which he produced over 150 scientific papers.

For much of his career, Swain's research focused on confining and heating high density plasmas, largely with high power radiowaves. He received his PhD in Physics from the Massachusetts Institute of Technology in 1969, after receiving a Bachelor of Science from North Carolina State University in 1963. He became a Fellow of the American Physical Society in 1985.

His professional career began in 1969 at Sandia Laboratories; in 1975, he joined Oak Ridge National Laboratory as a member of the ORMAK tokamak team. He played a leading role in radiofrequency development activities for TFTR at Princeton Plasma Physics Laboratory and Tore Supra in France, plus other ion cyclotron systems for devices around the world including NSTX and KSTAR. Swain was also an early and critical member of the international team that designed ITER's ion cyclotron heating system. He retired from ORNL in 2017, but continued to contribute as a consultant, helping US ITER and the ITER Organization.

In his professional and personal life, Swain possessed a generosity of spirit, good-natured friendliness, and a dry sense of humour that made it a pleasure to work and travel with him. His folksy sayings, rooted in his rural North Carolina upbringing, were legendary. The global ITER community will miss his character and his contributions.

-- US ITER and the ITER Organization

The fusion team at the International Atomic Energy Agency (IAEA) has introduced a worldwide tracking and information system for fusion devices, located within the IAEA's Fusion Portal.

The Fusion Device Information System (FusDIS), developed and maintained by the IAEA, focuses on experimental fusion research devices worldwide. FusDIS contains information on fusion devices public or private that are currently in operation, under construction, closed or being planned. All information is collected by the IAEA and undergoes a process of review involving the International Fusion Research Council.

It currently lists 62 tokamaks, 12 stellarators/heliotrons, 7 laser fusion devices, and 31 innovative/alternate fusion concepts.

The IAEA fusion team is interested in feedback on FusDIS. Please send comments to: Fusion-Physics@iaea.org

From the Princeton Plasma Physics Laboratory:

The American Nuclear Society has bestowed its distinguished Nuclear Historic Landmark designation on the pioneering Tokamak Fusion Test Reactor (TFTR) that ran from 1982 to 1997 at the US Department of Energy's Princeton Plasma Physics Laboratory (PPPL).

The groundbreaking facility laid the foundation for future fusion power plants and set world records for fusion power (10.7 million watts) in 1994 and total fusion energy production (1,500 million joules) from 1993 to 1997.  The achievements marked a major step in fusion history.

The designation, which will be formally announced at the American Nuclear Society's November meeting, recognizes TFTR "for demonstrating significant fusion energy production and tritium technologies for future nuclear fusion power plants and the first detailed exploration of magnetically confined deuterium-tritium fusion plasmas."

Read the full statement by The American Nuclear Society.

Read the original article on the PPPL website.

Secondary school teachers across Europe are invited to participate virtually in the 2020 European Fusion Teacher Day, hosted by FuseNet, the European Fusion Education Network.

Registration for the 2 October event closes on 27 September.

The European Fusion Teacher Day will premiere new education materials for the classroom, offer a behind-the-scenes look at international fusion experiments such as ITER, JET and GOLEM, and host a live connection with teachers throughout Europe. At the end of the event you will be able to tell your students all about nuclear fusion: from the cutting-edge research that is going on, to how to make fusion a career.

For the first part of the event, participants will join video calls in the language of their choice, hosted by fusion institutes in Austria, Bulgaria, the Czech Republic, France, Germany, the Netherlands, Portugal, Slovenia, Spain, Sweden, Ukraine, and the United Kingdom. An introductory lecture followed by a presentation of newly developed classroom materials will be the highlights of this part of the program.

Then, all participants will tune into a livestream (in English) with fusion students and scientists located on site at three tokamak facilities: ITER, JET and GOLEM.

For more information on how to participate, see FuseNet.

On 17 September, the chiller plant in the Site Services Building was turned over to the ITER Science, Controls & Operation Department (SCOD) for commissioning.

This is the first of many handovers to come between the ITER construction and operation teams, and it signals that equipment installation is complete. Now, a commissioning team led by SCOD will start to energize the equipment, fill the pipes, and test the circuits and related control interfaces.

The chiller plant is one element of the chilled water system that is, in turn, part of the overall ITER cooling water system. The tokamak cooling water system, the component cooling water system, the chilled water system and the heat rejection system are together responsible for removing the enormous amounts of heat generated by the tokamak and its auxiliary systems.

On August 28, two upper port extensions procured by the Russian Domestic Agency arrived at the South Korean port of Busan.

Each of the vacuum vessel's 44 openings will have custom-made "extensions" to create the junction to the surrounding cryostat. The first link in the two-part chain—the port stub extension—will be welded to the vacuum vessel sectors before they are shipped from their manufacturing locations; (the second, port extensions, will be added during assembly on site).

Responsible for the 18 upper ports, the Russian Domestic Agency has been delivering upper port stub extensions to vacuum vessel manufacturers in Korea and Europe since 2017. They are procured under the general contracting responsibility of JSC NIIEFA (part of Rosatom State Corporation), and manufactured by MAN Energy Solutions, Germany.

Upper port extensions #14 and #16 were delivered to Korea late August after a one-month sea voyage. The timely delivery of all port stub extensions is critical for the on-time fabrication of vacuum vessel sectors, and thus the overall ITER schedule.

 

The ITER community was saddened to learn that Vladimir Sergeevich Voitsenya, a Ukrainian physicist, researcher, and Fellow of the Ukrainian Physical Society, passed away in August 2020. 

Trained as a Doctor of Science in Physics and Mathematics, he spent much of his career at the Kharkov Institute of Physics and Technology, KhIPT, moving from laboratory head to leading research scientist, head of the plasma diagnostics laboratory, and finally head of the Stellarators Division. Dr Voitsenya's scientific interests included magnetic plasma confinement, plasma-surface interaction, and plasma-facing mirrors for the diagnostics in ITER.

"Vladimir was a key player in the mirror program for ITER diagnostics and indeed his work is the foundation of the current excellent progress in this area," commented Michael Walsh, Head of ITER Diagnostics. Colleagues at the International Tokamak Physics Activity (ITPA*) remember him for his enthusiasm, his visionary papers, his ideas—many of which are now implemented in ITER diagnostics—and his kind and friendly attitude. "For us he was a diagnostic pioneer, one of the founders and strongest proponents of the ITPA."

*The International Tokamak Physics Activity (ITPA) provides a framework for internationally coordinated fusion research activities.

ITER's start-of-assembly celebration on 28 July 2020 generated unprecedented media interest in the project, as evidenced by 3,500 news stories in the printed press in 41 languages (101 countries). A small sampling can be found in Press Clippings (https://www.iter.org/pressclippings). For full information about the project see the ITER website at https://www.iter.org/.

In this 16-minute feature on the ITER Project aired by the Seoul-based English language channel Arirang TV on 5 August, the head of ITER Korea, Jung Kijung, explains how South Korea joined ITER in 2003, how Korean expertise has contributed to the science and engineering that underpins the mega-science project, what in-kind components South Korea has contributed to the project, and what milestones have to be realized before the advent of fusion electricity.

Watch the segment of News, In Depth here.

The 360° virtual tour of ITER construction has been updated with drone footage from late May 2020. Plunge 30 metres into the ITER Tokamak pit, relive the insertion of the cryostat base, and fly in and out of the ITER plant buildings to see what has changed since the last update in February 2020..

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below, the 2D tour requires no special equipment to enjoy. (If you do have 3D glasses, click on the yellow goggle symbol at the top of any screen.)

Click here to enter the latest 360° ITER virtual tour.

Timed to meet worldwide attention on the ITER Project at the launch of its machine assembly phase, a new section of the ITER website has just been released. The ITER assembly pages are the place to go for information, photos, videos, articles and links about the step-by-step process of building the world's largest tokamak.

And, thanks to the skill of ITER CAD technician Kevin Ballant, the pages open to a new video that shows you how the ITER Organization assembly teams will proceed—from installing the cryostat base and lower cryostat components at the bottom of the assembly arena, to the placement of the central column and radial beams of the in-pit assembly tool, the vacuum sector sub-assemblies, the magnets, upper cryostat components, and finally the cryostat lid.

Visit the new ITER assembly pages here.

In a report published this month, the European Domestic Agency for ITER, Fusion for Energy, explains how progress was maintained on the fabrication of five ITER vacuum vessel sectors despite some factory shutdowns due to Covid-19.

"We had to analyze the impact of the pandemic on our production plants, figure out which tasks could be performed in line with the instructions issued by the Italian authorities, and adopt measures of health and safety in line with this new reality. Therefore, we re-arranged the planning of activities, prioritised some critical ones. We put forward a short-term plan to keep up the progress, while ensuring full compliance with protocols," explains Max Febvre, Fusion for Energy Manufacturing Project Manager for the vacuum vessel. As a result, the impact of the pandemic was not as disruptive as expected. 

See a full report plus recent photos here.

Secondary school teachers across Europe are invited to participate virtually in the 2020 European Fusion Teacher Day, hosted by FuseNet, the European Fusion Education Network.

Registration for the event on 2 October is free of charge and open now.

The European Fusion Teacher Day will premiere new education materials for the classroom, offer a behind-the-scenes look at international fusion experiments such as ITER, JET and GOLEM, and host a live connection with teachers throughout Europe. At the end of the event you will be able to tell your students all about nuclear fusion: from the cutting-edge research that is going on, to how to make fusion a career!

For the first part of the event, participants will join video calls in the language of their choice, hosted by fusion institutes in Austria, Bulgaria, the Czech Republic, France, Germany, the Netherlands, Portugal, Slovenia, Spain, Sweden, Ukraine, and the United Kingdom. An introductory lecture followed by a presentation of newly developed classroom materials will be the highlights of this part of the program.

Then, all participants will tune into a livestream (in English) with fusion students and scientists located on site at three tokamak facilities: ITER, JET and GOLEM.

For more information on how to participate, see FuseNet.

Looking for a new way to explain fusion in your classrooms and boardrooms? Interested in a two-minute summary of what fusion is and how it can change our future?

A new animation from Fusion for Energy, the European Domestic Agency for ITER, uses a fresh visual approach to make fusion accessible to all. Subtitles are available in English, French, German, Italian, and Spanish.

See the video here.

Synthetic diamond windows will play a double function in the ITER machine—allowing the microwaves of the electron cyclotron heating system to pass through to reach the plasma while providing an effective leak-proof vacuum barrier.

High-purity CVD (chemical vapour deposition) diamond windows offer unsurpassed hardness, broad band optical transparency, and extremely high thermal conductivity.

The European Domestic Agency, Fusion for Energy, is working with the German firm Diamond Materials for the production of 60 diamond disks (Ø 7 cm) for the electron cyclotron heating system.

See the full story here.

A wealth of information about the behaviour and stability of the ITER plasma will be communicated by the return signals of the low-field side reflectometer (LFSR)—a diagnostic that shoots a frequency-modulated (FM) millimetre wave signal (a type of microwave) into the plasma and gathers information about the plasma edge in return.

The LFSR is the first device of its kind to measure the plasma density, and process and report the data to the central tokamak control system in real-time. This allows it to serve as an alert system, as abrupt changes in the steepness of the edge density profile, or gradient, can lead to instabilities known as edge localized modes (ELMs), which release large amounts of energy.

A final design review is planned this summer by the US ITER diagnostics team, which is based out of the Princeton Plasma Physics Laboratory. The device will be installed on ITER before its First Plasma.

See the original news on the US ITER website or this report from the Princeton Plasma Physics Laboratory.

The 28th edition of the IAEA Fusion Energy Conference (FEC 2020) has been postponed.

Originally scheduled to take place from 12 to 17 October 2020 in Nice, France, the conference organizers have announced new dates: 10 to 15 May 2021. The venue for the event has not changed.

The IAEA Fusion Energy Conference is the world's largest conference on fusion energy. Sponsored by the International Atomic Energy Agency, and organized regularly since 1961, it attracted over 1,000 fusion scientists and engineers at its last edition, in 2018. 

The 28th edition of the IAEA Fusion Energy Conference (FEC 2020) will be hosted jointly by the French Alternative Energies and Atomic Energy Commission (CEA) and the ITER Organization.

For information and important dates, visit FEC2020 or the dedicated page on the IAEA website.

The sunrise of fusion startups has also reached Japan. A team from Kyoto University founded its fusion startup in October 2019. Kyoto Fusioneering Co. Ltd. assists private fusion developers through engineering solutions and business-to-business technical assistance to accelerate the practical realization of fusion energy.

Today, there are already many fusion startups around the world, mainly in North America and Europe. Fusion is no longer public-sector-only science; it is a business bringing excitement to the private sector as well. Taka Nagao, CEO of Kyoto Fusioneering, sees a real opportunity. "Even though 'fusion electricity' is quite far away, we're already in the phase of business opportunities." Fusion startups have been raising funds from venture capital funds to develop demo fusion reactors. Some of them look for cooperation with other startups to help their demo development, rather than doing everything by themselves. "So we see the manufacturing of fusion machine components as an already existing need, and it is becoming a fruitful market," he says.

His company focuses especially on critical in-vessel components that will be an important part of every fusion reactor—the blanket, which must be designed to breed tritium and efficiently remove energy for electricity generation, and the divertor, which extracts heat and ash produced by the reaction to minimize plasma contamination.

--Anri Kato

On 14 May 2020, ITER Director-General Bernard Bigot participated virtually in a Highlight Seminar organized by the Andlinger Center for Energy and the Environment (Princeton University, USA).

The Andlinger Center's stated goal is to translate fundamental knowledge into practical solutions that enable sustainable energy solutions and the protection of the environment. 

In the seminar attended (virtually) by over 500 people, Bernard Bigot reviewed ITER status and fielded questions on upcoming milestones, the short- and longer-term perspectives of fusion energy, and how to get involved.

Listen to the one-hour program on the Princeton University website here.

The Chinese television network CGTN has released an episode of its series "Decoding the Future" on hydrogen fusion. What is fusion? How does a tokamak work? What role for ITER? How are researchers in China contributing? Among the (virtual) panelists during the 30-minute episode in English is theortical physicist Alain Bécoulet, head of the ITER Engineering Domain.

Watch the episode on YouTube here.

COMPASS, a small tokamak located at the Institute of Plasma Physics (Czech Academy of Sciences) in Prague, will soon become COMPASS-U—a high magnetic field device with an enlarged operational space and improved performance—to serve the research programs supporting ITER and the next-phase device DEMO.

A preliminary design review of the new COMPASS-U tokamak was held remotely from 31 March to 3 April with over 60 international and domestic scientists in attendance.

See the news here.

The 360° virtual tour of ITER construction has been updated with drone footage from late February 2020. Fly in, out and over the principal buildings of the ITER worksite by clicking on the teardrop-shaped markers.

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below, the 2D tour requires no special equipment to enjoy. (If you do have 3D glasses, click on the yellow goggle symbol at the top of any screen.)

Click here to enter the latest 360° ITER virtual tour.

The Wendelstein 7-X stellarator facility at the Max Planck Institute for Plasma Physics (IPP) in Greifswald, Germany, is preparing for higher heating power and longer plasma pulses.

After a successful campaign that ended in late 2018—during which operators were able to achieve discharge times of up to 100 seconds (2 MW of input heating power) or 30 seconds at 6 MW—the Wendelstein 7-X team is now preparing to install actively water-cooled components inside the vacuum vessel that will allow the next round of experiments to generate plasma pulses of up to 30 minutes.

The previous cladding made of carbon tiles has now been removed, and the vessel is ready for the installation of the new water-cooled protective elements. Chief among them is the new divertor, a highly technical component made of plasma-facing front tiles mounted on water-cooled back plates—assemblies made of nearly 500,000 parts, which were the object of more than 15 years of development, fabrication and testing.

Commissioning of the upgraded facility is expected to begin early next year.

Read the full article on the IPP Greifswald website.

--Cooling elements on the back side of a divertor plate. Photo: IPP, Michael Herdlein

ITER science and technology was one of the topics that more than 80 students from across southeast Asia explored at the sixth ASEAN School on Plasma and Nuclear Fusion and Sokendai Winter School in Thailand in late January.

The school—which is organized by Sokendai University, the Thailand Institute of Nuclear Technology (TINT), and Walailak University with the support the IAEA and ITER—is part of Thailand's initiative to intensify its fusion research program and aims at promoting interaction between young talent in southeast Asian countries and leading researchers from around the world.

"The ITER Director-General gives his full support to the school by sharing the latest developments on ITER as well as the background and rationale of its science and advanced technology," said Jean Jacquinot, Senior Adviser to the Director-General of the ITER Organization, and one of the lecturers at the school.

Read the full story on the IAEA website. 

In a rare moment off the playing field, 100 of France's top under 17 rugby players visited the ITER site last week, taking advantage of a selection camp organized locally to learn more about fusion and the ITER Project. 

The ITER visits team tailors its guided tours to groups of all sizes—from individuals to buses of 50 people. Since work began on the construction platform in 2007, 158,000 members of the public have passed through the gate, including 16,000 in 2019. Among the visitors last year were 7,000 French schoolchildren.

See more on ITER visits here.

When there is no off-the-shelf solution, develop your own!

This was the mind-set of the European contractor that—because no available solution was accurate enough—invented a specialized metrology tool that is capable of measuring the diameter of cylindrical components to within an accuracy of 0.004 mm.

Working closely with the European Domestic Agency Fusion for Energy, the Spanish firm Tekniker has developed a tool that will be used to inspect the diameter of the "multi-link" connectors between the ITER divertor and its plasma-facing components and assess whether they have been manufactured to within the required 20 microns of tolerance.

Read the full story here.

If your PhD was awarded after 1 January 2017—or you are about to obtain one—you are eligible to apply for a Monaco-ITER Postdoctoral Fellowship.

The Fellowship Program is recruiting now for two-year terms beginning autumn 2020.

Since 2008, 30 young scientists and engineers have been able to participate directly in ITER, working on cutting-edge issues in science and technology with some of the leading scientists and engineers in each domain. The principal aim of the Research Fellowships, which are funded by the Principality of Monaco under a Partnership Agreement that was renewed in early 2018, is the development of excellence in research in fusion science and technology within the ITER framework.

The deadline for application is 1 March 2020. All information can be obtained here.

Led by the European Space Agency (ESA) with strong NASA participation, the Solar Orbiter mission, which lifted off from Cape Canaveral on 10 February, will provide the first views of the Sun's uncharted polar regions, giving unprecedented insight into the workings of our familiar star.

Solar Orbiter will also investigate how intense radiation and energetic particles being blasted out from the Sun and carried by the solar wind impact our home planet, to better understand and predict periods of stormy "space weather."

Find out more at ESA or NASA.

In a context of new momentum in fusion research—as the ITER Organization begins assembling its machine, a number of upgraded tokamaks return to operation, and private investors fund fusion startups—what does the near future hold for the development of fusion energy?

This was the question the Andlinger Center for Energy and Environment at Princeton University asked Steve Cowley (left), director of the US Department of Energy's Princeton Plasma Physics Laboratory (PPPL) and Princeton University professor of astrophysical sciences, and Egemen Kolemen (right), a PPPL physicist and assistant professor of mechanical and aerospace engineering at the Andlinger Center, during a Highlight Seminar event in January.

You can read their replies here.

Princeton University's Andlinger Center for Energy and the Environment is a multidisciplinary research and education centre, whose mission is to the develop technologies and solutions of the future.

During the next Symposium on Fusion Engineering (SOFE April 2021), Fusion Technology Awards will be presented for the years 2020 and 2021 to individuals who have made outstanding and widely recognized contributions to research and development in the field of fusion technology, or for technical contributions that have had a major impact in fusion technology and/or leadership and service within the community.

The Awards each consist of a USD 3,000 cash prize and a plaque. Any person, regardless of nationality or Society affiliation, is eligible for the award, with the exception that no current member of the IEEE/NPSS Standing Committee on Fusion Technology may be nominated. The nomination package should be sent to the Fusion Technology Committee Awards Chair, Carl Pawley (drcpawley@ieee.org), and it should consist of a nomination letter describing the technical and/or leadership contributions on which the nomination is recommended and a resume of the candidate.

The nomination period for the 2020 Fusion Technology Award is 4 February to 10 March 2020.

For more detailed information on eligibility, basis for judging, nomination process and a list of past Award recipients, please visit the IEEE-NPSS website and go to the "Fusion Technology Awards" section.

Academician Evgeny Velikhov, who was Mikhail Gorbachev's scientific adviser in the mid-1980s, is considered as the "godfather" of the ITER Project. The veteran fusion physicist who celebrated his 85th birthday on 2 February in Moscow, was instrumental in gathering support for what was to become ITER in both the Soviet Union and within the Reagan administration, where he had several high-level contacts.

At the head of the nation's fusion program since 1973 when he succeeded Lev Artsimovitch, President of the Kurchatov Institute from 1992 to 2015 (and current Honorary President), and member of the Russian Academy of Sciences, Velikhov has received numerous national and international distinctions for his work. A key driving force for international collaboration on fusion, he served as ITER Council Chair during the technical design phase for ITER and again at the start of ITER construction from 2011-2012.

Russian President Vladimir Putin congratulated the outstanding scientist on his birthday and noted his fruitful personal contribution to the development of the national Academy of Sciences and the Kurchatov Institute.

Photo: Anatoly Krasilnikov and Vladimir Vlasenkov (Head and Deputy Head of the Russian Domestic Agency for ITER) presenting him with 3D glasses loaded with the most recent video images from the ITER worksite.

In the third installment of ITER Japan's manga series on the project, our hero Taiyô Tenno visits the factory where the first ITER toroidal field coil was completed and learns about the multiple challenges (including tooling, welding, testing, level of precision, and materials) that had to be overcome.

A timely addition to the series, which can be downloaded from the ITER Japan website here or directly from the ITER Publications gallery (comics).

Researchers led by CS Chang of the Princeton Plasma Physics Laboratory (PPPL) have been awarded major supercomputer time to address key issues for ITER. The award, from the DOE's INCITE* program, renews the third and final year of the team's supercomputer allocation for the current round.

The third-year allotment consists of 1.5 million node hours on the Theta supercomputer at the Argonne Leadership Computing Facility, and 0.97 million node hours on Summit, the world's most powerful supercomputer, at the Oak Ridge Leadership Computing Facility. Since every computer node has thousands of processing cores, or data processors, a single node hour equals thousands of core hours.

The INCITE announcement of the renewal called the studies "time-urgent for the successful planning of ITER operation" and ones that require "an intensive, concentrated computing effort using extreme-scale supercomputers."

The multi-year project studies three high-priority ITER edge-plasma challenges: gauging the heat-load that will strike the material surrounding the plasma in ITER; understanding the physics behind the transition from low-to-high ITER plasmas; and, studying turbulence at the edge of ITER plasmas that could damage the interior of the fusion facility.

Read the full article at PPPL.

*Innovative and Novel Computational Impact on Theory and Experiment (INCITE)

The offices of the ITER Organization will be closed from 23 December through 3 January included, although work will be proceeding on the construction site.

The year 2020 promises to be a special one for the ITER Project, as some of ITER's largest components arrive on site and the carefully orchestrated assembly phase for the ITER machine and plant officially kicks off.

Newsline will continue to cover every aspect of ITER and the fusion world, from progress on the construction site in southern France and in component manufacturing in factories and laboratories on three continents ... to meetings, conferences and scientific breakthroughs throughout the world.

See you in January.

We shot a similar end-of-year photo in 2017: click here to compare the two images.

View the ITER Organization's e-card here.

From Wednesday 4 December 2019 through 28 January 2020 a public service announcement on ITER will be a regular feature on the Euronews network, which has a global reach of 430 million households (including 170 million European households) in 166 countries.

The goal is to raise awareness of the ITER Project, the promise of fusion, and Europe's leadership as the host Member—working together with China, India, Japan, Korea, Russia, and the USA—to bring to reality the most complex science experiment ever attempted.

The 20-second promotional spot has been filmed in five languages (English, French, German, Spanish, and Italian). It is scheduled to air two- to three-times daily, or approximately 70 times in December and another 70 in January.

You can watch the public service announcementson the ITER YouTube page in English, French, German, Spanish or Italian.

The 360° virtual tour of ITER construction has been updated with drone footage from October 2019. Fly in, out and over the principal buildings of the ITER worksite by clicking on the coloured teardrop-shaped markers: red to follow a drone inside the buildings, yellow for a tour at ground level, or blue if you prefer to stay at bird's eye view.

Accessible from the home page of the ITER website (yellow icon) or by clicking on the link below, the 2D tour requires no special equipment to enjoy. (If you do have 3D glasses, click on the yellow goggle symbol at the bottom left of your screen.) Make sure you don't miss out on the "Tokamak 3d/Pit" button (blue site map, blue teardrop). It's a spectacular virtual visit of the completed plasma chamber.

Click here to enter the latest 360° ITER virtual tour.

In the December 2019 issue of Physics Today (Volume 72, Issue 12), two physicists explore the ways in which ITER will be a major step in "bridging the gap between current understanding and the knowledge needed to design and operate fusion power plants as safe, sustainable energy sources."

Richard J. Hawryluk* (Princeton Plasma Physics Laboratory's associate director for fusion) and Hartmut Zohm (director at the Max Planck Institute for Plasma Physics, Garching) enumerate the open questions that are expected to be answered or clarified during ITER experimentation—heat and particle transport in the plasma core, stability of the edge region, plasma-boundary interactions, and alpha particle heating. "Experiments [at ITER] will be a unique opportunity to study burning plasmas, develop the tools needed to better understand them, and validate outstanding predictions. The experiments will provide seminal answers to questions that are central to the prospects for fusion."

Significant fusion power has only ever been achieved in two devices—and only for a little less than one second: up to 10 MW in the Tokamak Fusion Test Reactor (US), and up to 16 MW in the Joint European Torus (UK).

ITER—with the capability to produce 500 MW of power for more than 300 seconds—will enable "the first in-depth study of burning plasmas in a magnetic confinement configuration."

Read the full article here: "The challenge and promise of studying burning plasmas," Physics Today 72, 12, 34 (2019); doi: 10.1063/PT.3.4363. 

*Richard Hawryluk was also the ITER Deputy Director-General for Administration from 2011 to 2013.

Fusion science and technology are complex matters that are difficult to explain to non-specialists. In its fall edition, Fusion in Europe (published by the EUROfusion network) asked a dozen "fusioneers" to write about the challenges they face in their daily practice. Whether hard-core scientists working in European laboratories and institutions, teachers or PhD students, they all volunteer their time to "entertain, enthral and educate" the general public.

"How do we teach ten-year-old students a complex topic like fusion?" asks Patricia Raposo-Weinberger, who teaches at Graz International Bilingual School in Graz, Austria. "For me, the best approaches are experiment and storytelling," she writes. "Never underestimate the power of a good, simple and enthusiastic story and its effect on students' interest in physics."

Jack Davies Hare, who currently works as a postdoctoral researcher at the Max Planck Institute of Plasma Physics in Garching, Germany, summarizes the challenges of "surviving the maelstrom inside ITER" in a striking manner. He too begins with a question: "How do you build something that can survive for twenty years in the harshest conditions ever created on Earth, with no chance of replacement or repair, and with no test facility to replicate this environment?"

Like Patricia and Jack, the contributors to this "fusion writers edition" of Fusion in Europe share a common passion to communicate not only their enthusiasm but also their awe at what they uncover when exploring the bewildering world of fusion.

The "fusion writers edition" of Fusion in Europe can be downloaded here.

Applications have opened for the 2020 SOFT Innovation Prize.

Building on the success of the SOFT Innovation Prize in 2014, 2016 and 2018, the European Commission has launched the contest's fourth edition under Euratom's 2019-20 Work Programme 2019-20. The prize seeks to highlight and reward excellence in research and technology innovation in the domain of fusion.

The contest is open to fusion researchers or research teams from all ITER partner countries, from any third party country that has a bilateral fusion cooperation agreement with Euratom, and to industrial participants in the ITER Project. Prizes will be awarded at the 31st Symposium on Fusion Technology (SOFT2020) in Dubrovnik, Croatia, held from 20 to 25 September 2020.

The application period runs from 19 November 2019 to 5 March 2020. For more information, visit SOFT2020.

In November, record neutral beam power of 30.8 MW were injected into a plasma on the JET tokamak at the Culham Centre for Fusion Energy (CCFE).

The new record was achieved during tests preparing the plasma scenarios required for JET's deuterium-tritium experiments in 2020, which aim to achieve high fusion power for a stable five seconds. Increased heating powers are crucial to achieving this target.

Beams of neutral particles (known as neutral beam injection) are one of the main plasma heating schemes on fusion machines such as JET and ITER. As well as supplying most of the heating power, the injection of energetic particles also provides useful diagnostic data for physicists.

CCFE's engineering team, which operates JET on behalf of European scientists under the EUROfusion consortium, has upgraded the neutral beam system from its previous capacity of 23 MW to a potential maximum of 34 MW. The extra power will support researchers using JET to simulate plasmas for the ITER Tokamak.

Read the full article on the CCFE website here.

"The world's great powers can't agree on small steps to tackle climate change, but they're cooperating on a huge leap of faith in Provence." So begins a recent article in Bloomberg on the ITER fusion project. Describing ITER both as one of the world's biggest scientific puzzles as well as a trade puzzle, author Jonathan Tirone explains how a 35-country network is sharing intellectual property, collaborating to bypass difficulties, and ultimately—if ITER succeeds—providing a template for world powers to develop fusion reactors or their own.

Read the article here. (Photographs by Alastair Philip Wiper)

Next month, ITER Director-General Bernard Bigot will be presiding over a major public event in Marseille: L'Usine Extraordinaire (Extraordinary Factories). The three-day exhibition, organized from 14 to 16 November 2019, brings together more than 50 industrial actors and aims to change the public's perception of "big industry" by highlighting technological innovation, excellence, discovery, and ... the possibility of exciting careers.

More information (in French) at https://www.usineextraordinaire.com/

In a few decades, when dozen of fusion plants operate throughout the world and the first signs of alien life are detected in a faraway system, one will realize that it all started here, in a small corner of southern France, amidst the rolling hills of Haute-Provence.

The ITER site and the Observatoire de Haute-Provence are only 45 kilometres distant.

In 1995, two Swiss astronomers, Michel Mayor and Didier Queloz, coupled a highly sophisticated spectroscope to the Observatory's old 1.93-metre telescope (it was installed in 1958!) and discovered the first exoplanet—a "hot Jupiter" body orbiting the sun-like star 51 Pegasi, 42 light years distant from the Earth.

Last week, both Mayor and Queloz (along with astrophysicist James Peebles) were awarded the Nobel Prize in Physics for "forever changing our conceptions of the world."

By the time the first ITER buildings were coming out of the ground, close to 1,000 exoplanets had been detected. As of today, their number exceeds 4,500. Some of these worlds, made of solid rock like Earth, are orbiting the "habitable zone" of their star, where temperature allows water to be liquid and where life, whatever its form, is a possibility.

At an interval of a few years, on the ITER site and at the Observatoire de Haute-Provence, the seeds were sown for two momentous, game-changing pursuits: the harnessing of fusion energy and the quest for life outside our solar system.

In order to generate large amounts of fusion power, there needs to be a combination of two heavy hydrogen nuclei such as deuterium and tritium. But because of the radioactive nature of tritium—and also its scarcity—most experimental plasmas consist of deuterium only.

Although scientists are able to scale up the predicted performance of deuterium-tritium (DT) plasmas, there is nothing like using the real DT mix itself.

Next year, the European tokamak JET will be re-introducing tritium into its vacuum vessel for the first time since 1997.

The importance of its DT experimental campaign cannot be overstated for ITER. Until ITER starts operation with tritium in 2035, JET tritium and deuterium-tritium experiments will offer fusion scientists the opportunity to investigate physics relevant to high-fusion-power DT plasmas.

Read more about the planned campaign on the website of the Culham Centre for Fusion Energy.

Roundtable, from TRT World, describes itself as a discussion program with an edge. Broadcast out of London, it's about "bringing people to the table, listening to every opinion, and analyzing every point of view." In September 2019, host David Foster invited an illustrious panel to discuss the potential of hydrogen fusion: ITER Director-General Bernard Bigot; Steven Cowley, director of the Princeton Plasma Physics Laboratory and former CEO of the UK Atomic Energy Authority; Mark Wenman, Imperial College London; and Colin Walters, current director of the UK Atomic Energy Authority.

Click here to watch the 25-minute program.

Magyarósi Csaba, a popular Hungarian video blogger, has created a fast-paced and jaunty feature on ITER.

Travelling between experts at the Wigner Research Centre for Physics in Budapest and Hungarian staff at ITER, he introduces his followers to the principles of fusion before diving into ITER, literally, as his camera follows him in and out of buildings under construction, stairwells, offices, eateries, and even the equipment room for worksite visitors. 

His program, posted to YouTube on 13 September, has passed 190K views in the first two months.

Watch the 33-minute video (in Hungarian, with English subtitles) here.

In September, the US House Science Committee invited the ITER Organization to hold a mini "ITER Business Forum" in its chambers in Washington D.C. to inform US companies about upcoming business opportunities at ITER. Approximately 90 businesses attended the event, which was opened by ITER Director-General Bernard Bigot. The next round of planned tender offers was described, and Skype links were made available for direct question and answer sessions with managers and department heads on site at ITER.

See this page on the ITER website for more on current and forthcoming tender offers. 

From 26 to 27 August, representatives of Euratom and Rosatom met in Russia to discuss collaboration in the field of controlled nuclear fusion.

Representatives of the Kurchatov Institute, Rosatom, and ITER Russia hosted colleagues from EUROfusion, the Karlsruhe University of Technology (KIT) and the Belgian nuclear research centre SCK•CEN to discuss the possibility of joint tokamak experiments and collaboration in the areas of diagnostics, plasma-wall interaction, fusion neutron sources, and materials.

Collaboration and cooperation between the two institutions is made possible by the "Agreement between the Government of the Russian Federation and the European Atomic Energy Community (Euratom) in the field of controlled thermonuclear fusion" that was signed in 2001. Its stated purpose is "to "maintain and intensify cooperation in the areas of nuclear fusion energy on the basis of equality and mutual benefit in order to develop, particularly in the framework of activities connected with ITER project implementation, the scientific understanding and technological capability underlying a fusion power system.

At the Kurchatov Institute, visits were organized to the T-10 tokamak, as well as to T-15MD—an upgrade of the T-15 machine that is scheduled for completion next year.

In August, while on official visit to France at the invitation of President Emmanuel Macron, Prime Minister Narendra Modi of India shared his vision of cooperation in the field of energy on several occasions. At the UNESCO headquarters in Paris, he took pride in his country's participation in "the only fusion project under construction in the world." ''When fusion technology becomes available [...]," he said to expatriates gathered for the occasion, "this achievement will bear the mark of your contribution."

The full speech in Hindi is available on YouTube.

We regret to announce the passing, in August, of lifelong fusion advocate Romano Toschi.

Romano Toschi was a leading figure in the development the Italian magnetic confinement fusion program and played an important role in bringing the EU at the forefront of fusion research. He was known for his strong leadership and advocacy in furthering fusion and was a prime mover in the technical and political discussions leading to the establishment of ITER.

Below is an article describing his many contributions. EUROfusion has also published a tribute here.

Read the article about Romano Toschi

"There's quite a significant crossover in the technologies between fusion and space. Both sectors have the need for components to be able to withstand high temperature, corrosion and be radiation-resistant. Equally, there is the requirement to use remote handling and advanced robotics in hazardous environments."

Heather Lewtas is the Programme Manager for Joining and Advanced Manufacturing at the Culham Centre for Fusion Energy (CCFE). At this year's Made for Space conference in the UK, she gave a talk on "Pushing the limits of component performance in nuclear fusion and space."

"I wanted to focus on the technology people working in fusion have really mastered, and how this can be transported to the space industry. Equally, what are the problems we have that the space industry could help us solve?"

Read more on the CCFE website.

What happens when hundreds of science journalists from more than 50 countries get together? A lot of questions get asked ...

Earlier this month, the 11th World Conference of Science Journalists (WCSJ2019) took place in Lausanne, Switzerland, with the stated ambition of "strengthening the professional, ethical and technical skills of science journalists by increasing their knowledge of recent developments in science and improving their understanding of the forces that shape our world."

ITER was there.

As one of the world's most ambitious—and complex—scientific projects, ITER has the responsibility to nurture close and open relationships with journalists around the world who may be interested in finding out more. Journalists communicate with the audiences that need to understand fusion—how it works, what are the advantages of this form of energy, and how it could become an integral part of their lives and those of future generations.

During the weeklong event, the ITER stand—with a cinematic booth showing drone footage of the worksite—was a first point of contact for journalists. ITER Director-General Bernard Bigot was also interviewed live by Science magazine's European news editor Eric Hand. Finally, a group of 25 journalists elected to take the train to ITER on the last day of the conference, where they were given an in-depth tour of construction.

​ITER's doors have always been open to the media. Our presence at the WCSJ2019 was a way to reaffirm this commitment to transparency.

The table turns slowly as strips of composite material are wound into a perfect ring. One hundred sixty-four turns later, the 3.4-tonne component, with an internal diameter of 5 metres, is ready for bonding, compression, curing, dry machining, inspection and testing.

These are ITER's pre-compression rings, a set of nine composite rings that will support the toroidal field magnet superstructure in the face of huge electromagnetic forces during operation. Encircling the tips of the coil structures at top and bottom, two sets of three rings will "push back" with a centripetal force of thousands of tonnes, suppressing any coil deflection and greatly reducing cyclic fatigue stresses.

The European Domestic Agency is working with principal contractor CNIM (Toulon, France) for the procurement of nine pre-compression rings (six, plus three spares). The raw material—pultrude laminate—is being procured by the European agency from the Finnish company Exel, while the equipment for last-phase testing was built under an ITER Organization contract awarded to Douce Hydro (France) in collaboration with CNIM. 

Production techniques and processes were validated during lengthy prototyping and qualification phases, and series production is underway now.

Visit the European Domestic Agency website to see a video of the production process.  

In advance of the June G20 Summit in Osaka, Japan, Prime Minister Shinzo Abe and French President Emmanuel Macron held bilateral talks that resulted in the release of a five-year cooperation plan. Notably, ITER was one of the items on the agenda.

The plan provides a roadmap for partnership in the fields of maritime security, infrastructure development, global trade, space, cyberspace, cultural and scientific exchange, and the environment.

In Chapter IV (page 5-6), the two countries pledge to reinforce economic partnership with a particular emphasis on innovation—including ways of transitioning to energy systems that are low-carbon or carbon-neutral, affordable and stable. ITER makes that list, as well as the European-Japanese activities of the Broader Approach (advanced fusion energy research taking place in Japan).

Download the roadmap in Japanese or French

Superconductivity is a miracle of physics: when cooled down to temperatures close to absolute zero, certain alloys, or compounds, cease to oppose resistance to the passage of electricity. In electromagnets made of superconducting coils like ITER's, electrical consumption drops to zero and, as an added advantage, no heat is generated inside the magnets.

Magnet cooling, however, requires a vast quantity of energy. Cooling fluids must be circulated through the entire length of the superconducting coils which, at ITER, means maintaining a forced flow of 25 tonnes of liquid helium at 4 K (minus 269 °C) throughout approximately 180 kilometres (and 10,000 tonnes) of conductor.

For many years, research worldwide has struggled to develop materials that would transition to the superconducting state at less frigid temperatures—so-called "high-temperature" superconductors.

Used in electromagnets, these "high-temperature" superconductors would allow the production of more powerful magnetic fields, passing the present limitation of low-temperature conductors (At its maximum in the centre of the ITER central solenoid, the magnetic field has an intensity of 13 Tesla.)

The National High Magnetic Field Laboratory in Tallahassee, Florida, recently announced an important breakthrough in the quest for "high-temperature" superconductors: the manufacturing and testing of a half-pint "little big coil" that operated inside the bore of large outer copper coil in a background field of approximately 30 T, itself generating an additional 14.4 T, thus generating a combined record magnetic field of 45.5 Tesla in its (small) bore. This experiment demonstrated the capability of high temperature superconductors to operate in very high magnetic fields under large stresses. This could open the way to a new generation of magnets for biomedical research and fusion reactors.

 More information on the National High Magnetic Field Laboratory website and in this month's issue of Nature.

Every two years, the Festival de Théorie aims to promote interactions between PhD students, postdocs and young scientists in fusion plasma physics and related fields including astrophysics, fluid mechanics and geophysics.

Many of the principles governing the turbulence and magneto-hydrodynamic phenomena observed in fusion plasmas are similar to those found in naturally occurring astrophysical plasmas in the Sun. Fluid mechanics and planetary atmospheric physics also share common threads, reporting observations that often reflect the experimental measurements taken in tokamaks. This is where the Festival de Théorie comes in, fostering cross-disciplinary collaboration and providing an invaluable forum for tackling some of the key issues posed by ITER.

The theme selected this year is: Phase Dynamics. The 2019 program is organized around four weeks of study and research in collaboration with a core group of prominent scientists. Participants begin with two weeks of seminars and lectures, followed by research projects in weeks 3 and 4 on topics spanning plasma physics, fluid dynamics, astrophysics, and applied mathematics.

The 10th edition of the Festival de Théorie will take place in Aix-en-Provence, France, from 1 to 26 July 2019. Registration is open now.

The US Department of Energy (DOE) has announced the launch of INFUSE, a program created to encourage partnerships in fusion research between industry and DOE national laboratories.

The Innovation Network for Fusion Energy (INFUSE) will select a number of projects for awards between $50,000 and $200,000 each, with a 20 percent project cost share for industry partners. Of particular focus will be "enabling technologies" that could contribute to accelerating the development of fusion energy such as new and improved superconducting magnets, materials science, diagnostics, modelling and simulation, and experimental capabilities.

DOE's Oak Ridge National Laboratory (ORNL) will manage the new program with the Princeton Plasma Physics Laboratory (PPPL). ORNL's Dennis Youchison, a fusion engineer with extensive experience in plasma-facing components, will serve as director, and PPPL's Ahmed Diallo, a physicist with expertise in laser diagnostics, will serve as deputy director.

"I am excited about the potential of INFUSE and believe this step will instill a new vitality to the entire fusion community," says Youchison in the DOE press release. "With growing interest in developing cost-effective sources of fusion energy, INFUSE will help focus current research. Multiple private companies in the United States are pursuing fusion energy systems, and we want to contribute scientific solutions that help make fusion a reality."

The first call for proposals has been issued (deadline 30 June).

See the 4 June press release and the INFUSE website.

Fusion is the star of a recent Babbage podcast from The Economist, which aired on 5 June 2019. In "Fusing the future—a power struggle," science correspondent Alok Jha investigates the technology "that could solve all of the world's energy problems in a stroke."

Moving from the ITER Project—the "world's make or break fusion experiment"—to private startups, he investigates how close we are to the long-promised dream of nuclear fusion. Featuring interviews with Bernard Bigot, Director-General of the ITER Organization; Stephen Dean, Fusion Power Associates (US); Melanie Windridge, plasma physicist and author; Nicholas Hawker, CEO of First Light Fusion (UK); and David King, Executive Vice Chairman of Tokamak Energy (UK).

Listen here (runtime: 20 minutes).

High above the concrete fortress that will house the ITER Tokamak, a steel lattice of pillars and beams will soon rise to complete the structure—both providing a roof (once covered over with cladding) and providing sheltered manoeuvring room for the heavy assembly cranes that will be travelling back and forth from the Assembly Hall carrying components.

Twenty steel pillars (ten on either side) will support the roof structure as well as resist the tremendous forces exerted by the movement of the bridge cranes.

The lower segments of the pillars (see photo) will be directly anchored in the concrete of the Tokamak Building, either on concrete columns or on weight-bearing "brackets" called corbels. The rest of the roof structure will be assembled in five modules on the ground and lifted into place by crane.

The roof of the Tokamak Building will weigh approximately 2,000 tonnes.

Read the full story on the Fusion for Energy website.

Researchers from the MIT Plasma Science and Fusion Center, PSFC, and the University of Texas at Austin have had promising results in terms of plasma stability in experiments with "negative triangularity" on the DIII-D tokamak; that is, with reversing the conventional shape of the plasma in the tokamak chamber.

In results published recently in Physical Review Letters and Physics of Plasmas, researchers Alessandro Marinoni (MIT) and Max Austin (UT Austin) discovered evidence that reversing the conventional shape of the plasma in the tokamak chamber can create a more stable environment for fusion to occur, even under high pressure.

Marinoni and colleagues are planning future experiments to further demonstrate the potential of this approach in an even more fusion-power relevant magnetic topology, based on a "diverted" tokamak concept.

Read more on the subject on the PFSC website.

At ITER's Neutral Beam Test Facility, one testbed has been launched and another is in the procurement/assembly phase.

SPIDER—the ITER-scale negative ion source—turned on last year. Experiments on MITICA—a full-size prototype of ITER's 1 MV heating neutral beam injectors—are scheduled beginning 2022. Procurement is underway in Europe on the beam source and at Consorzio RFX in Padua, Italy, work is underway to install auxiliary components and systems.

In May, the first part of the MITICA beam source vacuum vessel was installed (photo). This stainless steel component was procured by the European Domestic Agency, Fusion for Energy, as a voluntary contribution to the ITER neutral beam development program.

See more about the manufacturing of the vessel here.

See more about the Neutral Beam Test Facility at Consorzio RFX here.

Physics of Plasmas (American Institute of Physics) has published a paper on research carried out under a collaboration between the Eindhoven Technical University (TU/e, Netherlands) and the ITER Organization.

"Kinetic modeling of ELM-induced tungsten transport in a tokamak plasma" (D. C. van Vugt, G. T. A. Huijsmans, M. Hoelzl, A. Loarte, et al) describes the role of edge-localized modes (ELMs) in exhausting tungsten impurities from the core plasma of tokamaks to ensure that their concentration remains low.

The collaboration modelled tungsten impurity behaviour and power fluxes to plasma-facing components during controlled ELMs in ITER with advanced modelling by the JOREK code, which required specific upgrades to the code to include the necessary plasma-wall interaction and impurity transport processes.

The authors write: "This publication shows that the role of ELMs in cleaning up the plasma from tungsten eroded at the divertor in ITER can be opposite to that in present experiments, particularly when we approach the conditions required for high fusion energy production gain. This implies that the use of the ELM control coils, included in the ITER baseline design to modify ELM behaviour and eventually suppress ELMs, will be required not only for the control of power fluxes to the divertor but also to exhaust the eroded tungsten from the confined plasma to keep it clean."

Read the complete article on the TU/e website here.

In his time at DIFFER (the Dutch Institute for Fundamental Energy Research) and the Swiss Plasma Center, fusion researcher Wouter Vijvers developed a novel imaging diagnostic known as MANTIS (Multispectral Advanced Narrowband Tokamak Imaging System).

Today, as CEO of the fusion spin-off Chromodynamics, he is hoping to use his real-time imaging technique in applications such as medical diagnosis and industrial quality and process control.

Imagine if a surgeon removing a malignant tumour from a patient could precisely see the contours of the tumour while operating. "Healthy tissues and malignant tissues have different chemical profiles, and this difference is what multispectral imaging will be able to capture and show," he explains. "Combine that with real-time capabilities, and a surgeon could see the image of the malignant tissue while operating to ensure complete removal."

In the meantime, Vijvers is still using his technology to study the plasma edge. In a Cooperation Agreement signed in February with the ITER Organization, Chromodynamics is joining Dutch research institutes TNO and DIFFER as well as Active Space Technologies (Europe) to develop a diagnostic tool capable of measuring the impurity content of the plasma.

See the full article on the EUROfusion website.

Lithium, the light silvery metal used in everything from pharmaceutical applications to the batteries that power your smartphone or electric car, could also help harness fusion energy on Earth. Lithium can maintain the heat and protect the tokamak vessel walls, and it will be used to produce tritium, the hydrogen isotope that will combine with deuterium to fuel fusion.

At the Princeton Plasma Physics Laboratory (PPPL) in the US, researchers have completed a three-year upgrade of the Lithium Tokamak Experiment, now called the Lithium Tokamak Experiment-Beta. This unique device will be able to test the ability of lithium to maintain the heat and protect the walls of the tokamak.

Photo: Interior view of the Lithium Tokamak Experiment prior to the upgrade.

See plans for the machine on the PPPL website.

Vigyan Samagam, the first-ever mega-science exhibition on show in India, starts its ten-month multi-venue tour at the Nehru Science Centre in Mumbai on 8 May. The aim is to bring mega-science closer to society and raise awareness and enthusiasm—especially among the younger generations, inspiring them to consider science and research as formidable career options.

The exhibition will allow visitors to get first-hand impressions of the big science projects that are redefining the boundaries of human knowledge for the benefit of all, and in which India is participating. ITER is one of the seven projects featured (with CERN, the Facility for Antiproton and Ion Research (FAIR), the India-based Neutrino Observatory (INO), the Laser Interferometer Gravitational Wave Observatory (LIGO), the Square Kilometre Array (SKA), and the Thirty Meter Telescope (TMT) International Observatory).

After staying in Mumbai for the first two months, the exhibition will then travel to Bengaluru, Kolkata and Delhi.

For more information on the event, please click here.

The ITER neutral beam injectors will be first of a kind, operating at 1MV with negative ion beams up to 40A. As part of a risk mitigation strategy, the ITER Organization is testing key system components in advance of operation at the ITER Neutral Beam Test Facility in Padua, Italy. This facility, housed at the Consorzio RFX laboratory, is the only one in the world capable of demonstrating ITER heating neutral beam requirements simultaneously.

Experiments began last year on SPIDER, a full-scale negative ion source. A second testbed will come on line in 2022: MITICA, a full-scale prototype 1 MV injector that will allow scientists to test and optimize the beam source, accelerator, and beamline components.

Work is progressing on the assembly of the MITICA test bed now. Acceptance tests have been run on the high voltage power sources supplied by Europe and Japan (see this page for photos) and, recently, Europe delivered the vacuum chamber that will house the MITICA beam source (photo).

The 5-metre-tall, 67-tonne chamber was manufactured by De Pretto Industrie (Italy) under a contract signed with the European Domestic Agency Fusion for Energy.

See more about the component on the Fusion for Energy website.

-- Final acceptance tests underway on the MITICA vacuum vessel at De Pretto Industrie.

In this new photomontage by General Atomics and US ITER, watch how ITER's 1,000-tonne central electromagnet is fabricated in a specialized workshop in Poway, California. It takes approximately 22-24 months to manufacture one central solenoid module, and six are needed for the ITER machine (plus a seventh as a spare). © General Atomics/US ITER

Click here to see the video.

Funding has been secured for the Joint European Tokamak (JET) through the end of 2020, providing welcome visibility to the world's largest operating fusion research facility in the context of uncertainty surrounding Brexit.

The future of JET has been under discussion since 2017 as its work is covered by the Euratom Treaty, which the UK Government intends to leave as part of the process of leaving the European Union.

The new contract signed last week between the UK and the European Commission provides reassurance for over 500 staff at JET, including many from outside the UK. It also means JET can conduct a series of vital fusion tests planned for 2020 that will serve as a "dress rehearsal" for ITER.

JET is operated by the UK Atomic Energy Authority at the Culham Centre for Fusion Energy (CCFE). Scientists from 28 European countries use it to conduct research into fusion energy through work coordinated by the EUROfusion consortium, which manages and funds European fusion research activities on behalf of Euratom.

Ian Chapman, CEO of the UK Atomic Energy Authority, said: "The extension to the contract is excellent news for both European Union and UK science. JET has been a shining example of scientific cooperation between European Union members, and this news means that these mutually beneficial collaborations will continue, allowing us to do essential experiments on the path to delivering fusion power."

Tony Donné, Programme Manager of EUROfusion, added: "A heavy weight has been lifted off our shoulders. This is extraordinarily good news for EUROfusion and the European fusion community as a whole. We can now continue to work on the realization of fusion energy together with the indispensable experience of our British partner."

See the EUROfusion and CCFE websites for more on the funding news.

Physics and engineering students of European universities are invited to attend the 2019 Summer University at the Max Planck Institute for Plasma Physics (IPP) in Garching, Germany, from 16 to 20 September.

The IPP Summer University for Plasma Physics and Fusion Research is designed for those students who have completed their bachelor's degree, but who have not yet decided on a PhD topic.

Lectures are planned on plasma physics, plasma-wall interaction and materials research, ITER and the next steps toward fusion energy, and more. The course will include a tour of the ASDEX Upgrade tokamak experiment (pictured) and laboratories.

Sign up by 31 May here.

Fusion scientists keep looking for ways to address the challenge of plasma disruptions, which can halt fusion reactions and potentially damage the plasma-facing components of a fusion device.

Researchers at the Princeton Plasma Physics Laboratory (PPPL) and the University of Washington have developed a prototype device to control plasma disruptions. The electromagnetic particle injector, EPI, is a type of railgun that fires a high-velocity projectile, a sabot, from a pair of electrified rails into a plasma that is on the verge of disruption. The sabot releases light-metal pellets into the centre of the plasma that would spread out the energy of the disruption from the centre of the plasma to the edge, thus weakening its impact on the vessel walls.

The EPI can deliver the pellets more deeply into the plasma than other techniques. For physicist Roger Raman of the University of Washington, the primary advantage of the new device is "its potential to meet short-warning time scales." Pellets should be delivered in less than 20 milliseconds from the warning of a disruption, with 10 milliseconds as ideal. During tests, the EPI delivered pellets in less than 10 milliseconds. In comparison, the gas-propelled system needs 30 milliseconds.

Read the full article on the PPPL website, which includes a slow-motion video of an EPI shot.

(Photo by Elle Starkman)

The 56h Culham Plasma Physics Summer School is open to applications.

The school will cover fundamental plasma physics,  together with a broad understanding of its fields of application. No previous knowledge of the subject is expected, but familiarity with electromagnetism and applied mathematics at first degree level is recommended. Lecturers are drawn from the Culham Centre for Fusion Energy (CCFE), the Rutherford Appleton Laboratory (RAL) together with leading European universities. All are renowned experts in their fields.

For more details and to apply please visit: https://culhamsummerschool.org.uk/

Discount for early registrations before 15 May.

The deadline for applications is 25 May.

Researchers at the Los Alamos National Laboratory in the United States have developed thin films made of a tungsten alloy that could be used inside fusion reactors. The material, a nanocrystalline tungsten-tantalum-vanadium-chromium alloy, showed "outstanding radiation resistance when compared to pure nanocrystalline tungsten materials," said researcher Osman El Atawi in an article published in The Engineer.

The inside of a fusion reactor vessel faces the hot plasma and must withstand extremely high temperatures as well as bombardment by charged and neutral particles. Tungsten, which is currently considered the most suitable material to protect the inside of a vacuum vessel, tends to fracture after radiation, while the newly developed alloy material retains its mechanical properties.

Osman El Atawi (left) and Enrique Martinez collaborated with researchers from several scientific institutes in the United States, Poland and the United Kingdom. Their joint paper is published in Science Advances.

What do you get when you mix three parts fusion doctoral training, two measures of outreach, many parts of information, and a final jigger of fun?

A Glass of Seawater!—a self-described "light, informative, and inspiring podcast all about the field of fusion energy research as seen through the eyes of PhD students from FUSION CDT*."

Now in its third season, the podcast takes on all kinds of nuclear fusion/plasma physics topics from, as the organizers are happy to admit, a "glass half full" perspective. What is incredibly hard—but also exciting—about research in fusion today? Which challenges have been overcome and which remain? What are the latest developments from the world of materials science? And—last but not least—how much fuel for the fusion reaction can be taken from a glass of seawater?

Tune in to Andrew, Bhavin, William and their many guests here, or look up A Glass of Seawater! on Facebook and Twitter.

Also, see this recent write-up from EUROfusion.

Five UK universities—Durham University, University of Liverpool, University of Manchester, University of Oxford, University of York—have joined within FUSION CDT to offer doctoral training in fusion-relevant disciplines such as plasma physics, material science, nuclear physics, technology, laser physics, and instrumentation. Learn more here.

Established in December 1893, the monthly L'Usine nouvelle ("The New Factory") is one of the oldest French trade magazines. To celebrate its 125th anniversary, the magazine organized a major travelling photography exhibit that will be presented at several engineering schools in France and eventually, in 2020, at the Palais du Luxembourg—home of the French Senate in Paris.

"Industry seen from above" brings together spectacular aerial photographs of industrial installations and infrastructure in France and abroad. And ITER is one of them.

The organizers chose a composite photo created by ITER contractor Emmanuel Riche from several drone views of the ITER site taken at dusk in December 2017. The resulting "planet"—centred on the Tokamak Building and its circular bioshield, with cranes jutting out at the "equator"—is one of the most spectacular renditions of the ITER site, in both its artistic and its documentary approach.

A photo of a specimen of tungsten-fibre-reinforced tungsten after a stress test won the first prize in science publisher Elsevier's "NuMart Image Competition". Johann Riesch and colleagues at the Max Planck Institute for Plasma Physics (IPP) developed the composite material as part of the search for materials that could be used at high-stress locations in fusion plasma vessels.

Although tungsten is the metal with the highest melting point, it is highly brittle and develops cracks under punctual stresses. Taking their cue from fibre-reinforced ceramics, Riesch and his team developed tungsten-fibre-reinforced tungsten where tungsten fibres with a diameter of 150 micrometres bridge the cracks in the tungsten matrix.

The photo taken by Martin Balden shows the new material after a breaking test as seen by an electron-microscope, demonstrating how the fibres enhance the fracture toughness of the tungsten material. The image will feature on the cover of the jubilee issue of Elsevier's Journal of Nuclear Materials, which will be published in April 2019, marking its 60th anniversary.

See the full article on the IPP website here.

The sequel of the ITER manga is out. Taiyô Tenno, the young Japanese art student who had visited Provence and had been introduced to ITER by French scientist Soléane, has returned to France. He spends his summer vacation as an intern at ITER's Communication Department where he and his two intern colleagues are tasked to come up with an idea of how to reach out to people all over the world and spread the word about ITER.

Taiyô meets Soléane again who introduces him to ITER's Deputy-Director Eisuke Tada. During a weekend walk on the Sainte Victoire mountain near Aix-en-Provence with Mr. Tada, Taiyô learns about the diversity at ITER, with experts coming from all over the world, sharing ideas in an open and frank atmosphere. Taiyô is inspired and returns to work full of ideas.

To find out how the story ends, read the new installment "A small sun on Earth. Volume 2: Internship chapter" published by ITER Japan. It is available in Japanese, English and French.

Download the manga on the ITER Japan website here or directly from the ITER Publications page (Comics).

A two-year campaign to test the resistance of EUROFER97 steel, financed by the European Domestic Agency, has just ended at the Nuclear Research and Consultancy Group (NRG) of the Netherlands.

The European Domestic Agency, Fusion for Energy, will be using a new kind of steel—EUROFER97—in its test blanket module program for its ability to resist high heat fluxes and neutron activation. In 2015, the agency contracted with Studsvik (Sweden) and its subcontractor NRG to study the performance of the steel after irradiation in conditions similar to those expected at ITER. Four irradiation campaigns with EUROFER97 steel samples have now been carried out in NRG's High Flux Reactor in Petten and the samples will undergo full analysis at Studsvik for brittleness, material strength, and microscopic changes.

Read the article in World Nuclear News.

A recent public hearing organized by the Budgetary Control Committee of the European Parliament has shed a light on the significant impact of ITER in terms of economic benefits and job creation.

According to Massimo Garribba, Director at the Commission's Directorate-General for Energy, ITER has produced almost EUR 4.8 billion in gross value added and almost 34,000 "job years" over the period 2008-2017 through the award of over 900 contracts and grants in 24 countries of the European Union.

European companies report that working for ITER generates a new knowledge base, offers new business opportunities and increases their competitiveness and growth, helping to create additional jobs.

Read the details on the Fusion for Energy website.

Thousands of live webcams throughout the world provide viewers with spectacular natural vistas, cityscapes and beaches, trendy bars and colourful markets in real time. Every year the EarthCam network, a website that collects webcams from thousands of sites across the globe, selects 25 of the most interesting views offered to the public.

As expected, webcam #1 in 2018 was pointed at a beautiful natural scene—the Arenal volcano in Costa Rica which, until a few years ago, was one of the most active in the world. There were also cats among the first tier of the awardees.

The surprise however came with webcam #18, the Remote Glow Discharge Experiment (RGDX) at the Princeton Plasma Physics Laboratory (PPPL), over which the EarthCam editors confessed they were "geeking out."

The RDGX allows viewers to turn on a plasma and change the gas pressure, the voltage, and the strength of the electromagnets from any place in the world.

Along with a webcam focused on a light bulb that has been shining at the Livermore, California, Fire Department for... 117 years ... and an interactive robot-controlling cam in Oakland, also in California, Princeton's RDGX is the only science- and technology-oriented webcam to make the first "25 most interesting webcams" in the world.

Read the original article on the PPPL website.

At the Culham Centre for Fusion Energy (CCFE), researcher Fulvio Militello is working on a statistical model that compares the seemingly random movement of filaments (structures that emerge at the edges of the hot plasma) to the behaviour of raindrops. In the same way that each unique raindrop follows the same laws of physics (they hit the pavement), filaments that differ in strength, speed, size, amplitude or position follow certain rules as they move. Militello's model estimates collective behaviour in order to give scientists a tool to predict and control them. Read more about his theory on the CCFE website.

In working with data from the DIII-D tokamak, physicists Ahmed Diallo and Julien Dominski from the Princeton Plasma Physics Laboratory (PPPL) have uncovered a trigger for a particular type of ELM—fiery bursts of plasma called Edge Localized Modes—that does not fit into present models. Their findings could shed light on the variety of mechanisms leading to the onset of ELMs and could broaden the portfolio of ELM suppression tools. Read the full report on the PPPL website.

On October 9 2014, fusion research bodies from European Union member states and Switzerland signed an agreement to cement European collaboration on fusion research and EUROfusion—the European Consortium for Development of Fusion Energy—was born. EUROfusion supports and funds fusion research activities on behalf of the European Commission's Euratom program. Today, there are 30 participating research organizations and universities from 26 European member states plus Switzerland and the Ukraine.

Beginning this month, Ambrogio Fasoli replaces Jérome Pamela as the Chair of EUROfusion's decision-making body, the General Assembly. Jérome Pamela had been in the role since January 2015.

Challenges ahead for the new Chair include the transition to the next European research and innovation framework program, Horizon Europe; navigating the uncertainties linked to Brexit; and the strategic direction of EUROfusion as it pursues the objectives laid out in the European Roadmap to Fusion Electricity.

Read interviews of the incoming and outgoing Chairs on the EUROfusion website.

See an on-line biography of the new Chair on the EPFL website.

Every year in December, the annual meeting of the Fusion Power Associates brings together senior representatives of the US and international fusion communities and US policymakers to review the status of fusion research and consider the way forward.

The 39th annual meeting, organized in Washington D.C. on 4-5 December 2018 on the topic of "Strategies and Expectations Through the 2020s," was no different—representatives from US government and US national labs and universities mixed with representatives from programs in Canada, China, Germany, Japan, Korea, the United Kingdom and, of course, ITER to review the fusion research landscape and promising paths to fusion energy.

All presentations from the 39th Annual Meeting can be downloaded here.

Researchers at the Princeton Plasma Physics Laboratory in the US are reporting findings that can be beneficial to ITER, says John Greenwald on the laboratory's website.

Results published by theoretical physicist Allan Reiman and his colleague Professor Nat Fisch in Physical Review Letters focus on so-called tearing modes—instabilities in the plasma that create magnetic islands, which are a key source of plasma disruptions.

Currents driven by radio frequency waves in the interior of these magnetic islands can stabilize deleterious tearing modes, an effect that is augmented by small perturbations in the plasma's temperature.

"When the power deposition in the island exceeds a threshold level, there is a jump in the temperature that greatly strengthens the stabilizing effect," says Reiman. "This allows the stabilization of larger islands than previously thought possible."

Read the full report on the PPPL website.

Physicists Allan Reiman, left, and Nat Fisch. (Photos by Elle Starkman)

Registration is open now for the 2019 edition of the ITER Business Forum (IBF/2019) to be held in Antibes, France from 26 to 28 March.

At IBF/2019, representatives of the ITER Organization, the Domestic Agencies, and main suppliers will be making presentations on industrial involvement in the project, procurement opportunities, and main future calls for tender.

In specific thematic sessions, registered delegates will have the opportunity to meet potential partners or subcontractors at the French, European or international level. A 1-1 meeting schedule tool is also available on line for all registered companies.

To find out more about the conference, to register to participate, or to reserve a stand, please see the IBF/2019 website.

Like mountaineers at the foot of Mount Everest, spacefaring nations have aimed for the Moon "because it's there." Now, close to 60 years after the first object from Earth landed (or more accurately "crashed") on the surface of our satellite and half a century after Apollo 11 gently deposited two men on the Sea of Tranquility, there are very concrete incentives to 21st century lunar exploration.

And one of these incentives has to do with the future of fusion.

Research today is essentially focused on the fusion of hydrogen isotopes deuterium and tritium, which is the "easiest" to achieve with our present technological capabilities. However, other energy-producing combinations of light nuclei are theoretically possible, a few of which involve the helium isotope 3 (3He). Fusing 3He with itself or with deuterium offers the immense advantage of not producing neutrons and hence avoids activating materials in the fusion chamber.

Carried by solar wind, 3He is prevented from reaching the surface of our planet because of the magnetic field that protects it. On the Moon however, where the magnetic field is considerably weaker, large quantities of 3He have accumulated close to the surface. For many years, some scientists, politicians, and private companies (and even a former Apollo astronaut) have made the argument for "mining the Moon" for 3He. Other scientists argue that mining the Moon for 3He is pure ... moonshine.

Despite the controversy, 3He recently made headlines in relation with the recent landing of the Chinese rover Chang'e 4 on the dark side of the Moon. Professor Ouyang Ziyuan, the Chief Scientist of the Chinese Lunar Exploration Program, was widely quoted saying that a long-term industrial program to mine the Moon for 3He was economically justified.  "The moon is 'so rich' in helium 3," he said, "that it could solve humanity's energy demand for around 10,000 years at least."

Photo: The Chang'e 4 module landed on the dark side of the Moon on 3 January 2019.

The US National Academies of Sciences, Engineering, and Medicine has completed a multiyear study of the overall status of magnetic confinement fusion research in the United States. Its recommendation? Continued US participation in the ITER Project and an unambiguous increase in funding for the domestic fusion program leading to the construction of a compact pilot plant.

The Final Report of the Committee on a Strategic Plan for Burning Plasma Research was the latest in a number of steps undertaken by policymakers in the United States to evaluate the state of domestic fusion research—including current and planned participation in international programs—and to develop a strategic plan for the future.

The final report issued in December 2018 makes two recommendations:

• The United States should remain an ITER partner as the most cost-effective way to gain experience with a burning plasma at the scale of a power plant.
• The United States should start a national program of accompanying research and technology leading to the construction of a compact pilot plant that produces electricity from fusion at the lowest possible capital cost.

See the press release for more information or to download the full report.

A new simulation tool helps scientists to understand how a tokamak would look during a fusion experiment. Research Software Engineer Alex Meakins of the Culham Centre for Fusion Energy (CCFE) in the UK has created a series of computerized images of the JET tokamak rendered in glass with the help of CHERAB, a simulation tool that combines plasma modelling with a powerful photo-realistic ray-tracer. This technique traces the path of light through a virtual world and predicts the effects of light bouncing off objects.

CHERAB helps address a long-standing problem for fusion diagnostics—the interference of light reflection from the metal surfaces inside a tokamak's vacuum chamber with the ability to make accurate plasma measurements.

Read the full article published by CCFE here.

On 3 December, over 1,100 ITER staff, contractors, partners, families and friends celebrated the end of 2018 as a successful year for the ITER Project and its mission to create clean and safe energy for the future.

Opening the evening at the Grand Théâtre de Provence in Aix-en-Provence, ITER Director-General Bernard Bigot told the audience that "our progress is the result of hard work, creative problem-solving and strong commitment on the part of every member of the ITER Team."

The highlight of the evening was the show of the award-winning shadow dance team Die Mobilés from Germany, whose masterful play with shapes, light and music took the audience on a tour to ITER Member countries around the world and through a short history of film. With astonishing creativity and as a special surprise for the audience, the artists brought ITER to life on stage—including a depiction of a busy worksite and a Tokamak model.

See a video clip from the show here.

Registration is now open for the 10th ITER International School, which will take place in Daejeon, Korea, from 21 to 25 January 2019. The registration fee for foreign students of KRW 340,000 (equivalent to around EUR 265, VAT included) includes accommodation, lunches and dinners, and bus service between the hotel and the school.

The ITER International School aims to prepare young scientists/engineers for work in the field of nuclear fusion and in research applications associated with the ITER Project.

The 10th edition, to be held at the Korea Advanced Institute of Science and Technology (KAIST) in Daejeon, is organized around "The Physics and Technology of Power Flux Handling in Tokamaks." This subject has an interdisciplinary character: power flux handling in tokamaks is key challenge for the development of nuclear fusion, but one that can only be resolved through the integration of physics-based approaches to decrease power fluxes on the tokamak wall together with technological developments for tokamak wall components.

For more information or to register, please visit www.iterschool2019.kr.

On the occasion of the 40th anniversary of China's Reform and Opening, President Xi Jinping visited the Exhibition of Achievements and explained ITER and fusion energy development in China to the other six members of the Political Bureau, the highest decision-making body in China.

Starting this week, politicians, scientists, strategists and non-governmental organizations meet in Katowice, Poland, for the 24th United Nations Climate Change Conference, COP24. ITER will present its quest for a new and clean source of energy on Thursday, 6 December, as physicist Greg de Temmerman steps into the ring to share the latest updates on the project.

Following his talk, starting at 11:00 a.m. in the Climate Action Hub amphitheatre, there will be a screening of the award-winning fusion documentary "Let there be Light."

You can see the entire talk on the COP24 website. Click on the respective agenda item on the right-hand side - the video will start after about one minute.

 

The stellarator fusion device Wendelstein 7-X achieved record results during its three-month experimental campaign in 2018, reports the Max Planck Institute for Plasma Physics (IPP) in Greifswald, Germany.

In experiments run from July to October, operators were able to improve plasma temperatures and densities over the first campaign and achieve long discharge times of up to 100 seconds. A 30-second plasma at 6 MW was achieved with an input heating energy of 200 MJ, while at reduced power a 100-second plasma was achieved at 2 MW.

These results are "highly satisfying" and represent some of the best stellarator values to date, the press release reports. The team is now pursuing further engineering upgrades—notably the replacement of current plasma-facing components with actively water-cooled components—to enable even higher plasma energies and, ultimately, plasmas lasting 30 minutes.

Read the full report on IPP's website.

You might wonder how many people are employed by the ITER Organization. Or how the staff pool breaks down in terms of hiring category, education level, gender or age. Or even something about family profile or Member representation.

With 35 countries participating, "diversity" is perhaps the word that best characterizes human resources at ITER. Find out more about hiring statistics, staff metrics, mobility, training, performance and more in the ITER Organizaton 2017 Social Report.

All ITER publications can be downloaded from this dedicated page on the ITER website.

The fastest supercomputer in the world, Summit (launched earlier this year at the Oak Ridge National Laboratory in the US) will be instrumental in advancing fusion studies. Choong-Seock Chang, head of the Center for Edge Physics Simulation (EPSI) at the Princeton Plasma Physics Laboratory (US), studies the complex physics at the edge of fusion plasmas by running simulations on Summit. "It enables us to do physics which we have not been able to do before," he says.

According to Chang, scientists discovered that putting more heat into the edge of a plasma eliminated impurities and calmed the plasma. The supercomputer, featuring 2700 NVIDIA Volta GPUs, runs simulations to help get an understanding at the fundamental level of how these processes function. With the help of artificial intelligence, Summit will sift through the huge amount of simulation data and select the data with "the new physics."

The ultimate goal, says Chang, is to model the entire device and "build a virtual tokamak so that we can predict and design the next fusion reactor."

See the video published by NVIDIA here.

For the ninth time, the International Standing Committee for the International Symposium on Fusion Nuclear Technology (ISFNT) has published a call for nomination for the Miya-Abdou Award. The prize honours outstanding contributions to the field of fusion nuclear technology by young nuclear scientists or engineers. Winners receive the award at the biennial gathering of the ISFNT.

The award is named after fusion experts Kenzo Miya who used to work at the University of Tokyo and Mohamed Abdou from the University of California Los Angeles (UCLA) in recognition of their contribution to the field of fusion nuclear technology.

The ninth Miya-Abdou Award will be presented at the 14th ISFNT meeting from 22-27 September 2019 in Budapest, Hungary. The deadline for nominations is 15 May 2019.

For more information please consult ISFNT's website.

The Divertor Tokamak Test facility (DTT) is a new Italian fusion project that aims to address one of the major challenges identified in the European Fusion Roadmap: i.e., exhausting power from fusion reactors. The project is led by the Italian national Agency for New Technologies, Energy and Sustainable Development (ENEA) in collaboration with all the Italian fusion community and international institutions.

"DTT will mark a significant step forward for fusion development in Europe and worldwide," stresses DTT project leader Aldo Pizzuto, "and it will help to strengthen the industry involvement in fusion technology and engineering."

The DTT facility will be located in the ENEA premises in Frascati and the first industrial procurements for its components will be launched in early 2019. A DTT Industry Day will be held on 14 December 2018 in Frascati, which will be dedicated to the presentation of the procurement strategy and schedule. Business-to-business (B2B) meetings and bilateral thematic tables will also be organized.

To register for the DTT Industry Day click here.

For more information on the Divertor Tokamak Test facility, see this website.

Another Highly Exceptional Load (HEL) passes through the six-kilometre-long channel (the Canal de Caronte) that leads from the Mediterranean into the inland sea Étang de Berre through the town of Martigues.

The load consists of four transformers—one poloidal field coil rectifier procured by China and three central solenoid converters (89 tonnes each) procured by Korea. All four are "step down transformers" that lower the 66 kV tension to a few kilovolts before the AC current is transformed into DC to be fed to the magnets. The HEL convoy will begin its land journey on Wednesday and is expected at ITER in the wee hours of Friday. Three more poloidal field coil rectifiers, stored in DAHER facility in Berre, will hit the road on Wednesday 28 November to be delivered at ITER the following Friday.

The Chinese Academy of Sciences has reported that the Experimental Advanced Superconducting Tokamak (EAST) at the Institute of Plasma Physics in Hefei has achieved an electron temperature of over 100 million degrees in its core plasma during a four-month experiment carried out earlier this year in collaboration with domestic and international colleagues.

Power injection exceeded 10 MW, and plasma stored energy reached 300 kJ after scientists optimized the coupling of different heating techniques (lower hybrid wave heating, electron cyclotron wave heating, ion cyclotron resonance heating and neutral beam ion heating). The experiment utilized advanced plasma control and theory/simulation prediction.

Research at EAST on physics and technology issues under steady-state operational conditions is directly relevant to ITER. Recent experiments on plasma equilibrium and instability, confinement and transport, plasma-wall interaction, and energetic particle physics have demonstrated long-time scale, steady-state H-mode operation with good control of impurity, core/edge MHD stability, and heat exhaust using an ITER-like tungsten divertor. 

Read a detailed report here.

The UK government has pledged to provide an additional £20m in 2019-20 to the UK Atomic Energy Agency (UKAEA), the public body responsible for research into nuclear fusion and the management of the country's largest fusion research laboratory, the Culham Centre for Fusion Energy (CCFE).

"We think fusion has a big role to play," said UKAEA CEO Professor Ian Chapman. "The fuels are abundant around the globe, it doesn't release greenhouse gases and it doesn't produce long-lived radioactive waste like the nuclear fission power we have today."

The 2018 Budget reaffirms the government's commitment to nuclear energy following an absence of new investments into the sector in the 2017 Budget.

According to the World Nuclear Association, nuclear power accounted for 21% of UK electricity in September this year, however "almost half" of the country's 15 reactors are expected to be decommissioned by 2025.

Read the full article  in "Power Technology" here.

Photo: The Culham Centre for Fusion Energy (CCFE).

Thirty-seven seconds might seem like a very short duration—but not for a plasma, and even less for a plasma produced by a machine that is just commencing operations.

The 37-second plasma that WEST obtained on 31 October exceeds by 7 seconds the first of five milestones ("Key Project Indicators") that were assigned to the machine on its way to final commissioning.

The good news did not come alone—the final ITER-like, actively-cooled full tungsten divertor has just been ordered. It will replace the present non-actively cooled divertor made of tungsten-covered graphite blocks and only a few actively cooled test plasma-facing units.

When this new divertor is installed, WEST will be able to produce ITER-relevant plasmas of up to 1,000 seconds.

In the third week of November, the ITER Organization will be installing the first component of the machine in the basement of the Tokamak Building.

The 10-metre, 6-tonne metal component is one segment of the magnet feeder that will relay electrical power, cryogenic fluids and instrumentation cables from outside of the machine in to poloidal field coil #4. The specific section to be installed, called a "feedthrough," will cross through the bioshield and cryostat at the lowest (B2) level of the building.

Delivered by the Chinese Domestic Agency to ITER last year, the component has undergone testing at the MIFI workshop (Magnet Infrastructure Facilities for ITER), which is operated jointly by a team from ITER and the French Alternative Energies and Atomic Energy Commission (CEA).

Most recently, the lifting operation was tested at MIFI using a specially designed tool delivered by the Korean Domestic Agency (picture). Next week the component will be transferred by truck to a staging area, and then lifted up into the circular assembly area and lowered to the floor.

Stay tuned for a report in the 26 November issue of the ITER Newsline on the first act of the machine installation phase.

At the Troitsk Institute for Innovative and Fusion Research (Moscow region), specialists have established a unique remote control panel that enables participation on leading fusion devices around the world.

Based on the facility's lab complex for neutron and spectroscopy diagnostics, the panel will facilitate the creation and calibration of diagnostic systems for ITER under Russian procurement scope.

The first cooperation line has been established with Europe's JET tokamak, based in Culham, UK.  

Rich Hawryluk—who was Deputy Director-General for the Administration Department at the ITER Organization from 2011 to 2013—has been appointed interim deputy director for operations of the Princeton Plasma Physics Laboratory (PPPL) while an international search for a permanent operations director moves forward. 

Hawryluk will assume the position of Terry Brog, who is stepping down from his position. Brog will remain at the Laboratory for the next six months as the head of special assignments and will work on special projects for the Department of Energy and will help develop a technology transfer plan for the Laboratory. 

This is a familiar role for Hawryluk. He served as deputy director for 11 years from 1997 to 2008. Hawryluk came to PPPL in 1974 after receiving his Ph.D. in physics from MIT. During his 44-year career, he has worked on most of the major fusion experiments at PPPL. He was head of the Tokamak Fusion Test Reactor, then the largest magnetic confinement facility in the United States, from 1991 to 1997. After leaving his position as deputy director, he headed PPPL's ITER and Tokamaks Department from 2009 to 2011. From 2011 to 2013, he worked at ITER in France, serving as the deputy director-general for the Administration Department of ITER.  After returning to the Laboratory in 2013, Hawryluk headed the ITER and Tokamaks Department for three years. In 2016, he became head of the NSTX-U Recovery Project and headed that effort until becoming interim Laboratory director in September 2017. 

Read more here.

The 2019 edition of the ITER Business Forum will be held in the French city of Antibes from 26 to 28 March.

Organized by Agence Iter France with the participation of the ITER Organization, the European Domestic Agency Fusion for Energy, and other Domestic Agencies, the event has three aims:

• To offer firms the opportunity to learn more about ITER business opportunities;
• To facilitate partnerships between industries within Europe and outside Europe, and;
• To foster collaboration between industry and fusion laboratories.

The 2017 event drew over 1,000 participants from 433 companies and 25 countries. Ninety-six percent confirmed that the event had allowed them "to identify potential clients, partners or subcontractors."

The website is open at this address. Registration and stand booking will be possible from mid-November on.

Five years of construction work to upgrade the spherical tokamak MAST (UK) have been brought to a close and experiments are set to begin early next year.

MAST Upgrade will contribute to the knowledge base for ITER by helping to resolve key plasma physics issues. It will be the first tokamak to trial the Super-X divertor—a novel way to exhaust heat loads from large fusion reactors, which spreads the power loads in the divertor area of the machine. Other features of the upgrade include an increase in the pulse length by a factor approaching ten, additional heating power, and better control and pumping capabilities to contain the resulting higher temperature, longer-pulse plasmas.

A ceremony was held on 18 October at the UK's Culham Centre for Fusion Energy (CCFE). See the full report here.

Follow Sky News presenter Thomas Moore as he explores the promise, the science, and the construction of the "world's largest science experiement."

Watch the three-minute video here.

Can ITER be the answer to the world's energy needs? A team from Al Jazeera Paris came on site in October to find out. After descending into the depths of the Tokamak Complex, interviewing the ITER Director-General and site specialists, and observing daily activities at ITER Headquarters over two days, team prepared a report that concludes with:

"Critics say there's a risk that ITER won't work or will never lead to fusion energy being commercially viable ... But if it does work it could help save the planet from climate change and prove the power of the human imagination. For those here, it's a gamble worth taking." 

Watch it here.

Want to see what the ITER platform will look like when all the buildings are complete? Check (and play with) this spectacular 3D model developped by the European Domestic Agency F4E. (Works best on Chrome)

As part of an investment made last year by the UK Atomic Energy Authority (UKAEA) to launch a fusion technology platform at the Culham Centre for Fusion Energy (CCFE), the "Fusion Technology Facilities" (FTM) centre of excellence will house a suite of equipment designed to test fusion components under combined thermal, mechanical, hydraulic and magnetic loads representative of future fusion power stations.

In the build-up period, the team is establishing links to promote knowledge sharing and to support an ambitious industry-related research program. CCFE has just announced that a strong collaboration is planned between the Materials Technology Laboratory at FTM and the Department of Mechanical Engineering at the University of Bristol (UK). The establishment of complementary test equipment at Bristol and the funding of a joint post-doctoral research position are part of the agreement.

Read more at CCFE and the University of Bristol.

In the latest edition of Fusion in Europe, young volunteer writers imagine what a future with fusion might look at.

Download the magazine here.