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 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. 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."Īpplications are open through 31 January 2022 for the 2022-2024 program students from all over the world are encouraged to apply. "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. "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. "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. In it, there is a four-page report on vacuum science at ITER featuring Vacuum Section Leader Robert Pearce. The CERN Courier just released its 2022 In Focus report on vacuum science, technology and innovation. The ITER community congratulates the JET team on its 100,000th pulse! This work is carried out under a contract between the European Commission and the UK Atomic Energy Authority (CCFE's operator). CCFE is responsible for operating the facility for fusion researchers and for maintaining and upgrading it. About 350 scientists from EU countries (plus Switzerland, the UK and Ukraine), and more from around the globe, participate in JET experiments each year. 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. Stay tuned: the results from these experiments will be announced in early February 2022. In 2021, JET carried out a second full-power run of experiments using deuterium and tritium. 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 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. 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). 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. On 18 January 2022, the machine ran its 100,000th plasma pulse. 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.
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