![]() ![]() DIII-D has over 100 participating institutions and a research team of more than 600 users. ![]() With support from the DOE and substantial international collaboration, DIII-D has been conducting groundbreaking fusion research since the mid-1980s. Successes with this configuration inspired many other devices to adopt the D-shape, including JET (UK), TCV (Switzerland), ASDEX-U (Germany), JT-60U (Japan), KSTAR (Korea), and EAST (China).īringing a Star to Earth: Fusion Energy Research at DIII-D Further research led to a modification of Doublet III in the mid-1980s to DIII-D’s current D-shaped cross-section. The Doublet I, II, and III tokamaks in the 1970s and 1980s showed that this approach allowed for a hotter and denser stable plasma. Early tokamak designs, starting in the 1960s, were circular in cross-section, but GA scientists developed the “doublet,” a configuration with an elongated hourglass-shaped plasma cross-section. It is pioneering the science and innovative technology that will enable the development of nuclear fusion as an energy source for the next generation.ĭIII-D is the product of evolving fusion research at GA going back to the 1950s. The DIII-D National Fusion Facility is an Office of Science scientific user facility, operated by General Atomics for the U.S. Get to know some of the outstanding researchers working at the DIII-D National Fusion Facility to advance fusion energy ![]() Fusion Researchers Highlight Opportunities at the DIII-D National Fusion Facility ![]()
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