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Instability-Enhanced Friction in the Presheath of Two-Ion-Species Plasmas

The speed at which ions enter a sheath is a fundamental property of a plasma that also provides a useful boundary condition in modeling. A recent theory proposed that this can be significantly influenced by an instability-enhanced friction force arising from two-stream instabilities in the presheath when multiple ion species are present. Although experiments appeared to confirm this theory, recent particle simulations have brought it into question. We reconcile this controversy using direct numerical solutions of the dispersion relation, which show that there is a dependence on the electron-ion temperature ratio that was not considered previously. In addition, particle-in-cell simulations are used to show that ion-ion two-stream instabilities can arise near the sheath edge and generate an enhanced ion-ion friction force. Only by accounting for the instability-enhanced friction force can theory predict the simulated ion speeds at the sheath edge.

preprint2014arXivOpen access
Scott D. BaalrudTrevor LafleurWilliam FoxKai Germaschewski
physics.plasm-ph
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Scott D. BaalrudTrevor LafleurWilliam FoxKai Germaschewski

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