Thumbnail
Access Restriction
Open

Author Vandenplas, P. E. ♦ Koch, R. ♦ Messiaen, A. M. ♦ Finken, K. H. ♦ Ongena, J. ♦ Philipps, V. ♦ Samm, U. ♦ Unterberg, B. ♦ Oost, G. V. ♦ Wassenhove, G. V. ♦ Winter, J. ♦ Bonheure, G. ♦ Dumortier, P. ♦ Durodie, F. ♦ Esser, H. G. ♦ Euringer, H. ♦ Giesen, B. ♦ Lochter, M. ♦ Tokar, M. Z. ♦ Wolf, G. H. ♦ Bertschinger, G. ♦ Fuchs, G. ♦ Hillis, D. L. ♦ Hoenen, F. ♦ Huettemann, P. ♦ Koenen, L. ♦ Koslowski, H. R. ♦ Kraemer-Flecken, A. ♦ Mank, G. ♦ Pospieszczyk, A.
Sponsorship USDOE
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword PLASMA PHYSICS AND FUSION ♦ TOKAMAK DEVICES ♦ ICR HEATING ♦ PLASMA CONFINEMENT ♦ DEUTERIUM ♦ HELIUM ♦ MHZ RANGE 01-100 ♦ ANTENNAS ♦ FARADAY EFFECT ♦ SHIELDING ♦ BEAM INJECTION
Abstract Experimentation with TEXTOP tokamak using the ICR plasma heating together with an auxiliary heating system involving the neutral beam injection have allowed to extend the improved confinement mode to the high density regime. The third harmonic D heating and a new reactor coating with edge radiative cooling have given a strong increase of the neutron yield. {copyright} {ital 1996 American Institute of Physics.}
ISSN 0094243X
Educational Use Research
Learning Resource Type Article
Publisher Date 1996-02-01
Publisher Place United States
Volume Number 355
Issue Number 1
Technical Publication No. CONF-9505105-


Open content in new tab

   Open content in new tab