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Autori principali: Pandey, Sanjeev Kumar, Ganesh, Rajaraman
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.18214
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author Pandey, Sanjeev Kumar
Ganesh, Rajaraman
author_facet Pandey, Sanjeev Kumar
Ganesh, Rajaraman
contents Using high resolution Vlasov - Poisson simulations, evolution of driven ``cold" electron plasma wave (EPW) in the presence of stationary inhomogeneous background of ions is studied. Mode coupling dynamics between ``cold'' EPW with phase velocity $v_ϕ$ greater than thermal velocity i.e $v_ϕ \gg v_{thermal}$ and its inhomogeneity induced sidebands is illustrated as an initial value problem. In driven cases, formation of BGK like phase space structures corresponding to sideband modes due to energy exchange from primary mode to bulk particles via wave-wave and wave-particle interactions leading to particle trapping is demonstrated for inhomogeneous plasma. Qualitative comparison studies between initial value perturbation and driven problem is presented, which examines the relative difference in energy transfer time between the interacting modes. Effect of variation in background ion inhomogeneity amplitude as well as ion inhomogeneity scale length on the driven EPWs is reported.
format Preprint
id arxiv_https___arxiv_org_abs_2407_18214
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Interaction of driven "cold" electron plasma wave with thermal bulk mediated by spatial ion inhomogeneity
Pandey, Sanjeev Kumar
Ganesh, Rajaraman
Plasma Physics
Computational Physics
Using high resolution Vlasov - Poisson simulations, evolution of driven ``cold" electron plasma wave (EPW) in the presence of stationary inhomogeneous background of ions is studied. Mode coupling dynamics between ``cold'' EPW with phase velocity $v_ϕ$ greater than thermal velocity i.e $v_ϕ \gg v_{thermal}$ and its inhomogeneity induced sidebands is illustrated as an initial value problem. In driven cases, formation of BGK like phase space structures corresponding to sideband modes due to energy exchange from primary mode to bulk particles via wave-wave and wave-particle interactions leading to particle trapping is demonstrated for inhomogeneous plasma. Qualitative comparison studies between initial value perturbation and driven problem is presented, which examines the relative difference in energy transfer time between the interacting modes. Effect of variation in background ion inhomogeneity amplitude as well as ion inhomogeneity scale length on the driven EPWs is reported.
title Interaction of driven "cold" electron plasma wave with thermal bulk mediated by spatial ion inhomogeneity
topic Plasma Physics
Computational Physics
url https://arxiv.org/abs/2407.18214