The role of wave-particle decorrelation mechanisms in ICRF heating of toroidal plasmas

D. Van Eester; Y. Louis; P. U. Lamalle; R. Koch

doi:10.1016/0375-9601(96)00331-3

The role of wave-particle decorrelation mechanisms in ICRF heating of toroidal plasmas

D. Van Eester
, Y. Louis
, P. U. Lamalle
, R. Koch

Laboratory for Plasma Physics

Royal Military Academy
Université Libre de Bruxelles
EFDA-JET

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

14 Citations (Scopus)

Résumé

Wave-particle decorrelation mechanisms affect the ICRF heating efficiency. Depending on the relative magnitude of the bounce and decorrelation times, three regimes are distinguished. When the decorrelation is due to collisions, these three regimes roughly correspond to thermal, a and RF induced tail particles, respectively. Heating efficiencies may be significantly lower than predicted by models assuming uncorrelated resonance crossings; this has an immediate bearing on superadiabatic α particles which will then absorb less ICRH power.

langue originale	Anglais
Pages (de - à)	70-79
Nombre de pages	10
journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	218
Numéro de publication	1-2
Les DOIs	https://doi.org/10.1016/0375-9601(96)00331-3
état	Publié - 29 juil. 1996

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title = "The role of wave-particle decorrelation mechanisms in ICRF heating of toroidal plasmas",

abstract = "Wave-particle decorrelation mechanisms affect the ICRF heating efficiency. Depending on the relative magnitude of the bounce and decorrelation times, three regimes are distinguished. When the decorrelation is due to collisions, these three regimes roughly correspond to thermal, a and RF induced tail particles, respectively. Heating efficiencies may be significantly lower than predicted by models assuming uncorrelated resonance crossings; this has an immediate bearing on superadiabatic α particles which will then absorb less ICRH power.",

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T1 - The role of wave-particle decorrelation mechanisms in ICRF heating of toroidal plasmas

AU - Van Eester, D.

AU - Louis, Y.

AU - Lamalle, P. U.

AU - Koch, R.

PY - 1996/7/29

Y1 - 1996/7/29

N2 - Wave-particle decorrelation mechanisms affect the ICRF heating efficiency. Depending on the relative magnitude of the bounce and decorrelation times, three regimes are distinguished. When the decorrelation is due to collisions, these three regimes roughly correspond to thermal, a and RF induced tail particles, respectively. Heating efficiencies may be significantly lower than predicted by models assuming uncorrelated resonance crossings; this has an immediate bearing on superadiabatic α particles which will then absorb less ICRH power.

AB - Wave-particle decorrelation mechanisms affect the ICRF heating efficiency. Depending on the relative magnitude of the bounce and decorrelation times, three regimes are distinguished. When the decorrelation is due to collisions, these three regimes roughly correspond to thermal, a and RF induced tail particles, respectively. Heating efficiencies may be significantly lower than predicted by models assuming uncorrelated resonance crossings; this has an immediate bearing on superadiabatic α particles which will then absorb less ICRH power.

KW - Plasma heating

KW - Wave-particle decorrelation

UR - https://www.scopus.com/pages/publications/0041590906

U2 - 10.1016/0375-9601(96)00331-3

DO - 10.1016/0375-9601(96)00331-3

M3 - Article

AN - SCOPUS:0041590906

SN - 0375-9601

VL - 218

SP - 70

EP - 79

JO - Physics Letters, Section A: General, Atomic and Solid State Physics

JF - Physics Letters, Section A: General, Atomic and Solid State Physics

IS - 1-2

ER -

The role of wave-particle decorrelation mechanisms in ICRF heating of toroidal plasmas

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