学術雑誌論文 Non-Ideal Ballooning Mode Instability with Real Electron Inertia

瀬戸, 春樹  ,  矢木, 雅敏  ,  相羽, 信行  ,  松山, 顕之  ,  D. Dudson, Benjamin  ,  Xu, Xueqiao

11pp.1203122-1 - 1203122-3 , 2016-12 , プラズマ・核融合学会
内容記述
Impacts of electron inertia with an electron skin depth (ESD) longer than the realistic value used in earlynumerical studies on non-ideal ballooning modes (NIBMs) are numerically investigated by a linearized 3-fieldreduced MHD model. In this paper, 4 different ESDs d∗ = 0, d , √10d , 10d are used for a resistivity dependence eeee study of the growth rate of NIBMs, where de = c0 ε0me/nee2 is the real ESD and de∗ = 10de corresponds to an order of ESD used in a numerical study on collisionless ballooning mode (CBM) reported in [Kleva and Guzdar Phys. Plasmas 6, 116 (1999)]. In the case with the real ESD de∗ = de, a transition from resistive ballooning mode (RBM) to CBM occurs in the edge relevant resistivity regime, while the electron inertia effect is overestimated and the growth rate is almost independent of resistivity in the cases with de∗ = √10de and 10de. These results indicate that the real ESD is one of key factors for the edge stability and turbulence analysis.

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