A field–particle correlation analysis of a perpendicular magnetized collisionless shock

Author:

Juno JamesORCID,Howes Gregory G.ORCID,TenBarge Jason M.ORCID,Wilson Lynn B.ORCID,Spitkovsky Anatoly,Caprioli DamianoORCID,Klein Kristopher G.ORCID,Hakim AmmarORCID

Abstract

Using the field–particle correlation technique, we examine the particle energization in a three-dimensional (one spatial dimension and two velocity dimensions; 1D-2V) continuum Vlasov–Maxwell simulation of a perpendicular magnetized collisionless shock. The combination of the field–particle correlation technique with the high-fidelity representation of the particle distribution function provided by a direct discretization of the Vlasov equation allows us to ascertain the details of the exchange of energy between the electromagnetic fields and the particles in phase space. We identify the velocity-space signatures of shock-drift acceleration of the ions and adiabatic heating of the electrons arising from the perpendicular collisionless shock by constructing a simplified model with the minimum ingredients necessary to produce the observed energization signatures in the self-consistent Vlasov–Maxwell simulation. We are thus able to completely characterize the energy transfer in the perpendicular collisionless shock considered here and provide predictions for the application of the field–particle correlation technique to spacecraft measurements of collisionless shocks.

Publisher

Cambridge University Press (CUP)

Subject

Condensed Matter Physics

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