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Author Berlizov, A. B. ♦ Buzankin, V. V. ♦ Vinogradov, V. P. ♦ Dnestrovskii, Y. N. ♦ Zaveryaev, V. S. ♦ Kovrov, P. E. ♦ Luk'yanov, S. Y. ♦ Notkin, G. E. ♦ Razumova, K. A. ♦ Strelkov, V. S. ♦ Chicherov, V. M. ♦ Shcheglov, D. A. ♦ Lingerrad, G. ♦ Pech, P.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword PLASMA PHYSICS AND FUSION TECHNOLOGY ♦ TOKAMAK DEVICES ♦ JOULE HEATING ♦ LIMITERS ♦ AUGER ELECTRON SPECTROSCOPY ♦ GLOW DISCHARGES ♦ IMPURITIES ♦ STAINLESS STEELS ♦ VACUUM SYSTEMS ♦ WALL EFFECTS ♦ ALLOYS ♦ CHROMIUM ALLOYS ♦ CLOSED PLASMA DEVICES ♦ CORROSION RESISTANT ALLOYS ♦ ELECTRIC DISCHARGES ♦ ELECTRIC HEATING ♦ ELECTRON SPECTROSCOPY ♦ HEATING ♦ IRON ALLOYS ♦ IRON BASE ALLOYS ♦ PLASMA HEATING ♦ RESISTANCE HEATING ♦ SPECTROSCOPY ♦ STEELS ♦ THERMONUCLEAR DEVICES 700101* -- Fusion Energy-- Plasma Research-- Confinement, Heating, & Production
Abstract An experimental study of the plasma during ohmic heating in the T-10 tokamak is reported. A stainless steel limiter was used, and the walls of the vacuum chamber were cleaned by a method aimed at effective removal of light impurities (carbon and oxygen). The data are compared with experimental data for limiters of other materials and with calculated results. The number of stable discharges is increased, but radiative losses continue to play a dominant role in the plasma energy balance.
Educational Use Research
Learning Resource Type Article
Publisher Date 1980-03-01
Publisher Place United States
Journal Sov. J. Plasma Phys.
Volume Number 6
Issue Number 2
Organization I. V. Kurchatov Institute of Atomic Energy, Moscow


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