Parametric instabilities during electron cyclotron heating of tandem mirrors

Parametric instabilities during electron cyclotron heating of tandem mirrors

Electron cyclotron resonance heating is one of the most commonly used methods of heating electrons in the plugs and in the thermal barriers of tandem mirrors. The intense coherent electromagnetic waves used for such heating are susceptible to parametric decay into other modes. Significant growth rat...

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Veröffentlicht in:Phys. Fluids; (United States) 1984-03, Vol.27 (3), p.650-657
1. Verfasser: Nicholson, D. R.
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
700101 - Fusion Energy- Plasma Research- Confinement, Heating, & Production
700107 - Fusion Energy- Plasma Research- Instabilities
COHERENT RADIATION
CONVERSION
ECR HEATING
ELECTROMAGNETIC RADIATION
Exact sciences and technology
HEATING
HIGH-FREQUENCY HEATING
INSTABILITY
INSTABILITY GROWTH RATES
Magnetic confinement and equilibrium
MAGNETIC MIRRORS
OPEN PLASMA DEVICES
PARAMETRIC INSTABILITIES
Physics
Physics of gases, plasmas and electric discharges
Physics of plasmas and electric discharges
PLASMA
PLASMA HEATING
PLASMA INSTABILITY
PLASMA MACROINSTABILITIES
Plasma Physics
PLASMA WAVES
RADIATIONS
TANDEM MIRRORS
THERMONUCLEAR DEVICES
TMX DEVICES
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Zusammenfassung:Electron cyclotron resonance heating is one of the most commonly used methods of heating electrons in the plugs and in the thermal barriers of tandem mirrors. The intense coherent electromagnetic waves used for such heating are susceptible to parametric decay into other modes. Significant growth rates are found for the decay of either ordinary or extraordinary waves into two magnetized electron plasma waves. This and related effects may result in electron heating mechanisms rather different than those assumed in linear ray-tracing calculations. These results may help explain the unusual effects observed during heating of the Phaedrus tandem mirror device. In the general case, these instabilities may be strongly inhibited by density gradients.
ISSN:0031-9171
2163-4998
DOI:10.1063/1.864672