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Abstract

LOWER - HYBRID - WAVE INTERACTION It is proposed to utilize a high phase-velocity wave driven indirectly within the plasma via a nonlinear beat interaction of two high frequency laser pump waves in order to enhance the efficiency of r.f. current drive as compared to the one induced by lower-hybrid waves. The use of this wave can be advantageously combined with a lower-hybrid wave having a slower phase velocity to generate a stochastic band in phase space due to a nonlinear interaction of resonances which results in a raised plateau in the electron velocity distributing function, leading to the generation of a current in the plasma. The dynamics of the electrons in this configuration is described through a generalized relativistic Fokker-Planck equation, the solution of which enables a predicion of the efficiency ratio J/P-d. A considerable improvement in the efficiency of the current drive as compared to the one obtained in the accessibility domain is found.

Additional information

Authors: GELL Y, CEA, DEPARTEMENT DE RECHERCHES SUR LA FUSION CONTROLEE, CENTRE D'ETUDES NUCLEAIRES DE GRENOBLE (FRANCE);NAKACH R CEA, DEPARTEMENT DE RECHERCHES SUR LA FUSION CONTROLEE, CENTRE D'ETUDES NUCLEAIRES DE GRENOBLE (FRANCE), CEA, DEPARTEMENT DE RECHERCHES SUR LA FUSION CONTROLEE, CENTRE D'ETUDES NUCLEAIRES DE GRENOBLE (FRANCE)
Bibliographic Reference: 4TH INTERNATIONAL SYMPOSIUM ON HEATING IN TOROIDAL PLASMAS, ROMA (ITALY), MARCH 21-28, 1984 VOL. I, PP. 641 - 647 1478 P., VOL. I AND VOL. II, 1984 WRITE TO MONOTYPIA FRANCHI, ST. LUCIA - VIALE UMBRIA NO. 28, 06012 CITTA DI CASTELLO, PERUGIA (ITALY), PRIC
Record Number: 1989124072400 / Last updated on: 1987-01-01
Category: PUBLICATION
Available languages: en
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