On resonance absorption and continuum damping | Zendy

A. Jaun | Zendy; K. Appert | Zendy; T. Hellsten | Zendy; J. Václavík | Zendy; L. Ṽillard | Zendy

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On resonance absorption and continuum damping

Author(s) -

A. Jaun,

K. Appert,

T. Hellsten,

J. Václavík,

L. Ṽillard

Publication year - 1998

Publication title -

physics of plasmas

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.75

H-Index - 160

eISSN - 1089-7674

pISSN - 1070-664X

DOI - 10.1063/1.873064

Subject(s) - physics , plasma , toroid , landau damping , atomic physics , resonance (particle physics) , absorption (acoustics) , ion cyclotron resonance , cyclotron resonance , ion , mechanics , quantum electrodynamics , computational physics , cyclotron , optics , nuclear physics , quantum mechanics

The absorption of power is studied with fluid and gyrokinetic plasma models, when Alfven resonances provide for a weak damping in a partially standing wave field. Examples chosen in slab and toroidal geometry show that the fluid predictions based on resonance absorption are generally very different from the Landau damping of mode-converted slow waves. They, in particular, suggest that the continuum damping of toroidal Alfven eigenmodes (TAE) and the power deposition profiles obtained in the ion-cyclotron range of frequencies (ICRF) using fluid plasma models can be very misleading.

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