Nonlinearly interacting trapped particle solitons in collisionless plasmas

The formulation of collective waves in collisionless plasmas is complicated by the kinetic effects produced by the resonant particles, capable of responding to the smallest of the amplitude disturbance. The dispersive plasma manifests this response by generating coherent nonlinear structures associa...

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Published inPhysics of plasmas Vol. 23; no. 2
Main Authors Mandal, Debraj, Sharma, Devendra
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.02.2016
Subjects
Amplitudes
Collisionless plasmas
Nonlinear response
Plasma physics
Solitary waves
Trapped particles
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ISSN1070-664X
1089-7674
DOI10.1063/1.4941976

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Abstract The formulation of collective waves in collisionless plasmas is complicated by the kinetic effects produced by the resonant particles, capable of responding to the smallest of the amplitude disturbance. The dispersive plasma manifests this response by generating coherent nonlinear structures associated with phase-space vortices, or holes, at very small amplitudes. The nonlinear interaction between solitary electron phase-space holes is studied in the electron acoustic regime of a collisionless plasma using Vlasov simulations. Evolution of the analytic trapped particle solitary solutions is examined, observing them propagate stably, preserve their identity across strong mutual interactions in adiabatic processes, and display close correspondence with observable processes in nature.
AbstractList The formulation of collective waves in collisionless plasmas is complicated by the kinetic effects produced by the resonant particles, capable of responding to the smallest of the amplitude disturbance. The dispersive plasma manifests this response by generating coherent nonlinear structures associated with phase-space vortices, or holes, at very small amplitudes. The nonlinear interaction between solitary electron phase-space holes is studied in the electron acoustic regime of a collisionless plasma using Vlasov simulations. Evolution of the analytic trapped particle solitary solutions is examined, observing them propagate stably, preserve their identity across strong mutual interactions in adiabatic processes, and display close correspondence with observable processes in nature.
Author Mandal, Debraj
Sharma, Devendra
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  surname: Sharma
  fullname: Sharma, Devendra
  organization: Institute for Plasma Research, Bhat, Gandhinagar, 382428 India
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SubjectTerms Amplitudes
Collisionless plasmas
Nonlinear response
Plasma physics
Solitary waves
Trapped particles
Title Nonlinearly interacting trapped particle solitons in collisionless plasmas
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