Kinetic theory of plasma waves - Part I: introduction

P. U. Lamalle

doi:10.13182/fst00-a11963205

Kinetic theory of plasma waves - Part I: introduction

P. U. Lamalle

Laboratory for Plasma Physics

EFDA-JET

Onderzoeksoutput: Bijdrage aan een tijdschrift › Congresartikel › peer review

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The kinetic description of linear waves in plasmas is succinctly presented, with emphasis on applications to high-frequency (hf) wave heating and current drive. The Maxwell-Vlasov system of equations is introduced. Its two-timescale analysis yields the linearized Vlasov and the quasilinear Fokker-Planck equations. The standard guiding centre and Hamiltonian formalisms are presented. Two formulations of the hf plasma wave equation are given: as a partial differential equation to hold at each position, and as a global Galerkin ('variational') form.

Originele taal-2	Engels
Pagina's (van-tot)	112-117
Aantal pagina's	6
Tijdschrift	Fusion Technology
Volume	37
Nummer van het tijdschrift	2 T
DOI's	https://doi.org/10.13182/fst00-a11963205
Status	Gepubliceerd - mrt. 2000
Evenement	4th Carolus Magnus Summer School on Plasma Physics - Maastricht, Nederland Duur: 30 aug. 1999 → 10 sep. 1999

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10.13182/fst00-a11963205

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abstract = "The kinetic description of linear waves in plasmas is succinctly presented, with emphasis on applications to high-frequency (hf) wave heating and current drive. The Maxwell-Vlasov system of equations is introduced. Its two-timescale analysis yields the linearized Vlasov and the quasilinear Fokker-Planck equations. The standard guiding centre and Hamiltonian formalisms are presented. Two formulations of the hf plasma wave equation are given: as a partial differential equation to hold at each position, and as a global Galerkin ('variational') form.",

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AB - The kinetic description of linear waves in plasmas is succinctly presented, with emphasis on applications to high-frequency (hf) wave heating and current drive. The Maxwell-Vlasov system of equations is introduced. Its two-timescale analysis yields the linearized Vlasov and the quasilinear Fokker-Planck equations. The standard guiding centre and Hamiltonian formalisms are presented. Two formulations of the hf plasma wave equation are given: as a partial differential equation to hold at each position, and as a global Galerkin ('variational') form.

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Kinetic theory of plasma waves - Part I: introduction

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