论文信息 - Analytical model for the perpendicular temperature enhancement in lower-hybrid current drive

Analytical model for the perpendicular temperature enhancement in lower-hybrid current drive

The enhancement of the perpendicular temperature inside the resonant region, observed in numerical studies of the two‐dimensional Fokker–Planck equation, combined with unidirectional rf quasilinear diffusion, is modeled on the basis of the collisional relaxation equations. Strong rf diffusion is assumed and relativistic effects are taken into account. The resulting enhanced perpendicular temperature is a function of the position and the width of the applied rf spectrum. Good agreement with two‐dimensional Fokker–Planck numerical results has been found.

R. A. Cairns | V. Fuchs | A. Bers | K. Hizanidis

[1] Steady‐state rf‐current drive theory based upon the relativistic Fokker–Planck equation with quasilinear diffusion , 1984 .

[2] R. A. Cairns,et al. A ONE-DIMENSIONAL MODEL FOR LOWER HYBRID CURRENT DRIVE INCLUDING PERPENDICULAR DYNAMICS** , 1985 .

[3] V. Krapchev,et al. Steady‐state solution of a two‐dimensional Fokker–Planck equation with strong quasilinear diffusion for lower‐hybrid current drive , 1985 .