Sensitivity of the kink instability to the pressure profile

Abstract

The stability of the n=1 ideal kink in DIII‐D‐like [Fusion Technol. 8, 441 (1985)] configurations is found to depend critically on the details of the current density and pressure profiles. The maximum stable normalized β, β_N=β/(I/aB) (I in MA, a in meters, and B₀ in tesla), is found to increase dramatically as the peak in the pressure gradient is shifted from the central region toward the plasma boundary. Further, for peaked pressure profiles, the β limit is insensitive to the internal inductance, l_i, whereas for broad pressure profiles, the β limit depends more strongly on l_i and can increase with l_i almost up to the point where the q profile becomes hollow. With broad pressure profiles and a conducting wall at 1.5 minor plasma radii, kink‐stable β_N values of 5.8−significantly above both the Troyon limit and the ballooning limit−have been found.