DEMONSTRATION OF HIGH-PERFORMANCE NEGATIVE CENTRAL MAGNETIC SHEAR DISCHARGES IN THE DIII-D TOKAMAK

Reliable operation of discharges with negative central magnetic shear has led to significant increases in plasma performance and reactivity in both low confinement, L-mode, and high confinement, H-mode, regimes in the DIII-D tokamak [Plasma Physics and Controlled Nuclear Fusion R esearch 1986 (International Atomic Energy Agency, Vienna, 1987), Vol. 1, p. 159]. Using neutral beam injection early in the initial current ramp, a large range of negative shear discharges have been produced wi th durations lasting up to 3.2 s. The total noninductive current (beam plus bootstrap) ranges from 50% to 80% in these discharges. In the re gion of shear reversal, significant peaking of the toroidal rotation [ f(phi)(0)similar to 30-60 kHz] and ion temperature [T-i(0)similar to 1 5-22 keV] profiles are observed. In high-power discharges with an L-mo de edge, peaked density profiles are also observed. Confinement enhanc ement factors up to H=tau(E)/tau(ITER-89P)similar to 2.5 with an L-mod e edge, and H similar to 3.3 in an edge localized mode (ELM)-free H mo de, are obtained. Transport analysis shows both ion thermal diffusivit y and particle diffusivity to be near or below standard neoclassical v alues in the core. Large pressure peaking in the L mode leads to high disruptivity with beta(N)=beta(T)(I/aB)less than or equal to 2.3, whil e broader pressure profiles in the H mode gives low disruptivity with beta(N) less than or equal to 4.2. (C) 1996 American Institute of Phys ics.