Simulations of toroidal rotation driven by the neoclassical toroidal viscosity in tokamaks

トカマクにおける新古典トロイダル粘性に駆動されたトロイダル回転のシミュレーション

本多 充; 佐竹 真介*; 鈴木 康浩*; 松永 剛; 井手 俊介; 吉田 麻衣子; 林 伸彦

Honda, Mitsuru; Satake, Shinsuke*; Suzuki, Yasuhiro*; Matsunaga, Go; Ide, Shunsuke; Yoshida, Maiko; Hayashi, Nobuhiko

For simulations of toroidal rotation with the neoclassical toroidal viscosity (NTV) included, the framework of the collaborative execution of the integrated code TOPICS with the 3D equilibrium code VMEC and the 3D neoclassical transport code FORTEC-3D has been developed. In tokamaks, toroidally-asymmetric components of the magnetic field exist and they produce the neoclassical toroidal viscosity. The neoclassical toroidal viscosity damps or sometimes accelerates toroidal rotation towards a certain rotation level, called the offset rotation. The contribution of the neoclassical toroidal viscosity to toroidal rotation has been investigated in JT-60SA plasmas. The simulations show that even the smaller ripple amplitude produces a non-negligible amount of the NTV torque that is almost comparable to the NBI torque.