[CLICK to see entire image] Overview of the SAS-VW program at DIII-D. A research concept map illustrates how intense plasma exhaust power entering the divertor leads to the emergence of impurities that can migrate into the plasma core. After identifying the research requirements for the SAS-VW, a process of engineering design, prototyping, and implementation is performed. (Image: General Atomics)
Researchers at the DIII-D National Fusion Facility (DIII-D) are preparing to test a new method that could enable future fusion power plants to withstand the heat and particle flow created by the fusion reaction, General Atomics reported this week.
Plasma in MAST. (Photo: UKAEA/EUROfusion)
As governments around the world cooperate on the ITER tokamak and, in parallel, race each other and private companies to develop commercial fusion power concepts, it seems that “game-changing” developments are proclaimed almost weekly. Recently, the United Kingdom and China announced new fusion program results.