Global delta f particle simulation of neoclassical transport and ambipolar electric field in general geometry

Wang WX; Tang WM; Hinton FL; Zakharov LE; White RB; Manickam J

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Global delta f particle simulation of neoclassical transport and ambipolar electric field in general geometry

机译：通用几何学中新古典运动和双极性电场的全局δf粒子模拟

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摘要

A generalized global particle-in-cell (PIC) code has been developed to systematically study neoclassical physics and equilibrium electric field dynamics in general toroidal geometry. This capability enables realistic assessment of the irreducible minimum transport level and the bootstrap current in toroidal systems. The associated analysis takes into account the comprehensive influences of large orbits, toroidal geometry, and self-consistent electric field, for more meaningful experimental comparisons. The simulation model and deltaf algorithm are described, and an interesting new result of non-local ion thermal transport is presented. (C) 2004 Elsevier B.V. All rights reserved.

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《Computer physics communications》 |2004年第3期|共5页
作者
Wang WX; Tang WM; Hinton FL; Zakharov LE; White RB; Manickam J;
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正文语种 eng
中图分类计算机的应用;
关键词
particle-in-cell simulation; delta f method; neoclassical transport; toroidal geometry; ambipolar electric field; finite orbit effect;

机译：粒子模拟;δf法;新古典输运;环形几何;双极电场;有限轨道效应;

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1. Global delta f particle simulation of neoclassical transport and ambipolar electric field in general geometry [J] . Wang WX, Tang WM, Hinton FL, Computer physics communications . 2004,第1a3期

机译：通用几何学中新古典运动和双极性电场的全局δf粒子模拟
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Global delta f particle simulation of neoclassical transport and ambipolar electric field in general geometry

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