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Effects of electron drift on the collisionless damping of kinetic Alfv\'en waves in the solar wind

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arxiv 1505.02328 v1 pith:RSYQMTQZ submitted 2015-05-10 astro-ph.SR physics.space-ph

Effects of electron drift on the collisionless damping of kinetic Alfv\'en waves in the solar wind

classification astro-ph.SR physics.space-ph
keywords alfvelectronkineticplasmassolarwaveswindcollisionless
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The collisionless dissipation of anisotropic Alfv\'enic turbulence is a promising candidate to solve the solar wind heating problem. Extensive studies examined the kinetic properties of Alfv\'en waves in simple Maxwellian or bi-Maxwellian plasmas. However, the observed electron velocity distribution functions in the solar wind are more complex. In this study, we analyze the properties of kinetic Alfv\'en waves in a plasma with two drifting electron populations. We numerically solve the linearized Maxwell-Vlasov equations and find that the damping rate and the proton-electron energy partition for kinetic Alfv\'en waves are significantly modified in such plasmas, compared to plasmas without electron drifts. We suggest that electron drift is an important factor to take into account when considering the dissipation of Alfv\'enic turbulence in the solar wind or other $\beta \sim 1$ astrophysical plasmas.

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