Roles of electric field on toroidal magnetic confinement

Theoretical research on the influence of electric field on toroidal magnetic confinement is surveyed. The static electric field is first described. A physical picture of the radial electric field generation and its influence on confinement are shown. Neoclassical effects as well as the non-classical...

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Veröffentlicht in:	IEEE transactions on plasma science 1994-08, Vol.22 (4), p.376-387
Hauptverfasser:	Itoh, K., Itoh, S.-I., Sanuki, H., Fukuyama, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY CLOSED PLASMA DEVICES CONFINEMENT ELECTRIC FIELDS ELECTRIC POTENTIAL Fluctuations Ions Lasers MAGNETIC CONFINEMENT Magnetism NEOCLASSICAL TRANSPORT THEORY Physics PLASMA CONFINEMENT PLASMA DENSITY Plasma measurements PLASMA POTENTIAL Plasma stability Plasma temperature Plasma transport processes THERMONUCLEAR DEVICES Tokamaks Toroidal magnetic fields TRANSPORT THEORY 700310 > Plasma Confinement-- (1992-)
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container_title	IEEE transactions on plasma science
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creator	Itoh, K. Itoh, S.-I. Sanuki, H. Fukuyama, A.
description	Theoretical research on the influence of electric field on toroidal magnetic confinement is surveyed. The static electric field is first described. A physical picture of the radial electric field generation and its influence on confinement are shown. Neoclassical effects as well as the non-classical processes are discussed. Emphasis is made on the connection with improved confinement. Convective cells with a nonuniform potential on the magnetic surface are also discussed. The roles of the fluctuating electric field are then reviewed. Recent progress in anomalous transport theory is addressed. Through these surveys, the impact of experiments using the heavy ion beam probes on modern plasma physics is illustrated.< >
doi_str_mv	10.1109/27.310644
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The static electric field is first described. A physical picture of the radial electric field generation and its influence on confinement are shown. Neoclassical effects as well as the non-classical processes are discussed. Emphasis is made on the connection with improved confinement. Convective cells with a nonuniform potential on the magnetic surface are also discussed. The roles of the fluctuating electric field are then reviewed. Recent progress in anomalous transport theory is addressed. 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The static electric field is first described. A physical picture of the radial electric field generation and its influence on confinement are shown. Neoclassical effects as well as the non-classical processes are discussed. Emphasis is made on the connection with improved confinement. Convective cells with a nonuniform potential on the magnetic surface are also discussed. The roles of the fluctuating electric field are then reviewed. Recent progress in anomalous transport theory is addressed. Through these surveys, the impact of experiments using the heavy ion beam probes on modern plasma physics is illustrated.< ></abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/27.310644</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY CLOSED PLASMA DEVICES CONFINEMENT ELECTRIC FIELDS ELECTRIC POTENTIAL Fluctuations Ions Lasers MAGNETIC CONFINEMENT Magnetism NEOCLASSICAL TRANSPORT THEORY Physics PLASMA CONFINEMENT PLASMA DENSITY Plasma measurements PLASMA POTENTIAL Plasma stability Plasma temperature Plasma transport processes THERMONUCLEAR DEVICES Tokamaks Toroidal magnetic fields TRANSPORT THEORY 700310 -- Plasma Confinement-- (1992-)
title	Roles of electric field on toroidal magnetic confinement
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