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UK-based Tokamak Energy is developing new laser measurement technology to control extreme conditions inside future fusion power. Plasma temperatures inside a tokamak reach over 100m degrees Celsius. The hydrogen fuel must be closely and accurately measured by a specialist laser system to keep the hot plasma stable, hold density and maintain fusion conditions.
- Source: NEI Magazine
- Date: Thursday, 21 March 2024
- Original article: neimagazine.com/news/newstokamak-energy-to-develop-new-laser-technology-for-fusion-plant-operations-11616489
UK-based nuclear fusion company Tokamak Energy said it is developing new laser measurement technology crucial for controlling extreme conditions inside future fusion power plants and delivering clean energy to the grid.
- Source: World Nuclear News
- Date: Saturday, 16 March 2024
- Original article: world-nuclear-news.org/Articles/Tokamak-Energy-developing-new-laser-technology
A Chinese tokamak device has set a new world record for a steady-state high-constraint mode plasma operation and German researchers have discovered a way to build smaller and cheaper fusion reactors. Meanwhile a US Government Accountability Office report on achieving commercial fusion cautions that several challenges must still be overcome.
- Source: World Nuclear News
- Date: Friday, 14 April 2023
- Original article: world-nuclear-news.org/Articles/Chinese-and-German-milestones-in-fusion-research
The new improved plasma retention mode has been demonstrated at the Experiment Advanced Superconducting Tokamak (EAST), according to the Hafei Institute of Physical Sciences of the Chinese Academy of Sciences. The new plasma operation scenario, Super I-Mode, discovered and demonstrated by a team from Institute of Plasma Physics at Hefei, was reported in a recent paper published in Science Advances.
- Source: NEI Magazine
- Date: Saturday, 14 January 2023
- Original article: neimagazine.com/news/newschinese-east-tokamak-achieves-improved-plasma-retention-10515633
A new mode of improved plasma confinement has been demonstrated at the Experimental Advanced Superconducting Tokamak (EAST), the Hefei Institutes of Physical Science, Chinese Academy of Sciences announced. It said the new high-confinement and self-organising Super I-mode "represents the reliability and advancement of the machine itself but also offers insights into how to better maintain the plasma operating stably and for long duration".
- Source: World Nuclear News
- Date: Tuesday, 10 January 2023
- Original article: world-nuclear-news.org/Articles/Chinese-tokamak-achieves-Super-I-mode
Scientists at Germany’s Max Planck Institute for Plasma Physics (IPP) on 25 June reported a new record performance at the Wendelstein 7-X stellerator, which began operation in 2015. Earlier experiments saw the plasma in the reactor achieve higher temperatures and densities than ever before, and now the records have been broken again in a new test with upgraded components. Like the tokamak, the stellarator uses large superconducting magnets to suspend hydrogen plasma and heat it to the temperatures and pressures needed to fuse hydrogen into helium. The Wendelstein 7-X has 50 superconducting magnet coils some 3.5 metres high. However, while the tokamak confines plasma in a doughnut shaped torus, the stellarator traps the plasma in a twisting spiral shape, which is designed to cancel out instabilities in the suspended plasma.
- Source: NEI Magazine
- Date: Thursday, 28 June 2018
- Original article: neimagazine.com/news/newsnew-record-results-for-german-stellerator-6224550