Neoclassical Transport Theory for Tokamak Plasma with Anisotropic Temperature in the Banana Regime
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概要
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The neoclassical transport theory in a presence of the temperature anisotropy in the equilib-rium distribution function is developed in a large aspect-ratio tokamak. Using a rnodel collisionoperator, the transport coefficients for the cross-field fluxes and the bootstrap current are ex-plicitly calculated in the banana regime. The electron perpendictmlar (parallel) heating is foundto increase (decrease) the cross-field particle and energy fltnxes of electrons and the bootstrapcurrent. The cross-field energy flux of tons are increased (decreased) by the perpendictrlar (par-allel) Jon heating. The cross-field fltuxes and the bootstrap current are also shown to have thecoznponent proportional to the radial electric field.
- 社団法人日本物理学会の論文
- 1998-03-15
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関連論文
- Effects of Temperature Anisotropy on Neoclassical Transport in the Plateau and Banana-Plateau Regimes
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- Analytic Expressions for Neoclassical Transport Coefficients Including Finite Banana-Width Effect around the Magnetic Axis
- Generation of Poloidal Electric Field by Anisotropic Heating
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- Neoclassical Heat Flux Due to Poloidally and Toroidally Varying Electrostatic Potential in Nonaxisymmetric Toroidal Plasmas
- Neoclassical Ion Flow Due to Inductive Electric Field in Tokamaks
- Classical Ion Energy Transport in a Presence of Steep Gradient
- Analytical Expression for Neoclassical Transport Coefficients of Alpha Particles
- Bootstrap Current for Tokamak Plasma with Anisotropic Electron Temperture
- Self-Sustained Tokamak Reactor due to Bootstrap Current with Finite Banana-Width Effect