Scientists See Solution to Crucial Barrier to Fusion
24th April 2012
Fusion occurs when plasmas become hot and dense enough for the atomic nuclei contained within the hot gas to combine and release energy. But when the plasmas in experimental reactors called tokamaks reach the mysterious density limit, they can spiral apart into a flash of light. “The big mystery is why adding more heating power to the plasma doesn’t get you to higher density,” said David A. Gates, a principal research physicist at PPPL and co-author of the proposed solution with Luis Delgado-Aparicio, a post-doctoral fellow at PPPL and a visiting scientist at MIT’s Plasma Science Fusion Center. “This is critical because density is the key parameter in reaching fusion and people have been puzzling about this for 30 or 40 years.”
The scientists hit upon their theory in what Gates called “a 10-minute ‘Aha!’ moment.” Working out equations on a whiteboard in Gates’ office, the physicists focused on the islands and the impurities that drive away energy. The impurities stem from particles that the plasma kicks up from the tokamak wall. “When you hit this magical density limit, the islands grow and coalesce and the plasma ends up in a disruption,” says Delgado-Aparacio.