Rotating toroidal equilibria of quasi-neutral and non-neutral plasmas

Starting from the fundamental ion and electron fluid equations, a “master” equilibrium equation set is constructed for axisymmetric toroidal plasmas. These equations retain the effects of different ion and electron densities, temperatures, sheared rotation, and electric forces. The master equation i...

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Veröffentlicht in:	Physics of Plasmas 1998-06, Vol.5 (6), p.2197-2202
1. Verfasser:	Hurricane, O. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION ELECTRON DENSITY EQUILIBRIUM PLASMA CONFINEMENT PLASMA DENSITY PLASMA FLUID EQUATIONS ROTATION
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container_title	Physics of Plasmas
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creator	Hurricane, O. A.
description	Starting from the fundamental ion and electron fluid equations, a “master” equilibrium equation set is constructed for axisymmetric toroidal plasmas. These equations retain the effects of different ion and electron densities, temperatures, sheared rotation, and electric forces. The master equation is then examined in various limits including the non-neutral plasma limit. An ordering is assumed which makes the effects of the Reynolds stress, pressure, magnetic stress, and electric field stress all comparable emphasizing the natural transition from the non-neutral case to the quasi-neutral one. For sub-relativistic flows, charge separation effects are only significant for nearly force-free plasmas. A set of equilibrium equations are derived for three different cases: (A) n i ≈n e , (B) n i ≠n e ≠0 , and (C) n i =0 and n e ≠0 . In the pure electron plasma case, the resulting equilibrium equation includes the effects of toroidal rotation, poloidal magnetic field, and electron pressure extending the equation of Daugherty and Levy [Phys. Fluids 10, 155 (1967)].
doi_str_mv	10.1063/1.872892
format	Article
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A.</creator><creatorcontrib>Hurricane, O. A.</creatorcontrib><description>Starting from the fundamental ion and electron fluid equations, a “master” equilibrium equation set is constructed for axisymmetric toroidal plasmas. These equations retain the effects of different ion and electron densities, temperatures, sheared rotation, and electric forces. The master equation is then examined in various limits including the non-neutral plasma limit. An ordering is assumed which makes the effects of the Reynolds stress, pressure, magnetic stress, and electric field stress all comparable emphasizing the natural transition from the non-neutral case to the quasi-neutral one. For sub-relativistic flows, charge separation effects are only significant for nearly force-free plasmas. A set of equilibrium equations are derived for three different cases: (A) n i ≈n e , (B) n i ≠n e ≠0 , and (C) n i =0 and n e ≠0 . 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A.</creatorcontrib><title>Rotating toroidal equilibria of quasi-neutral and non-neutral plasmas</title><title>Physics of Plasmas</title><description>Starting from the fundamental ion and electron fluid equations, a “master” equilibrium equation set is constructed for axisymmetric toroidal plasmas. These equations retain the effects of different ion and electron densities, temperatures, sheared rotation, and electric forces. The master equation is then examined in various limits including the non-neutral plasma limit. An ordering is assumed which makes the effects of the Reynolds stress, pressure, magnetic stress, and electric field stress all comparable emphasizing the natural transition from the non-neutral case to the quasi-neutral one. For sub-relativistic flows, charge separation effects are only significant for nearly force-free plasmas. A set of equilibrium equations are derived for three different cases: (A) n i ≈n e , (B) n i ≠n e ≠0 , and (C) n i =0 and n e ≠0 . 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A.</creator><scope>AAYXX</scope><scope>CITATION</scope><scope>OTOTI</scope></search><sort><creationdate>199806</creationdate><title>Rotating toroidal equilibria of quasi-neutral and non-neutral plasmas</title><author>Hurricane, O. A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c234t-32d5344b742e38e8dc7e0709d9ce493574987e9fb0edd6e1e88475cc4057eda23</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1998</creationdate><topic>70 PLASMA PHYSICS AND FUSION</topic><topic>ELECTRON DENSITY</topic><topic>EQUILIBRIUM</topic><topic>PLASMA CONFINEMENT</topic><topic>PLASMA DENSITY</topic><topic>PLASMA FLUID EQUATIONS</topic><topic>ROTATION</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hurricane, O. 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The master equation is then examined in various limits including the non-neutral plasma limit. An ordering is assumed which makes the effects of the Reynolds stress, pressure, magnetic stress, and electric field stress all comparable emphasizing the natural transition from the non-neutral case to the quasi-neutral one. For sub-relativistic flows, charge separation effects are only significant for nearly force-free plasmas. A set of equilibrium equations are derived for three different cases: (A) n i ≈n e , (B) n i ≠n e ≠0 , and (C) n i =0 and n e ≠0 . In the pure electron plasma case, the resulting equilibrium equation includes the effects of toroidal rotation, poloidal magnetic field, and electron pressure extending the equation of Daugherty and Levy [Phys. Fluids 10, 155 (1967)].</abstract><cop>United States</cop><doi>10.1063/1.872892</doi><tpages>6</tpages></addata></record>
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subjects	70 PLASMA PHYSICS AND FUSION ELECTRON DENSITY EQUILIBRIUM PLASMA CONFINEMENT PLASMA DENSITY PLASMA FLUID EQUATIONS ROTATION
title	Rotating toroidal equilibria of quasi-neutral and non-neutral plasmas
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