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Theory, observations, and simulations of kinetic entropy in a magnetotail electron diffusion region

M. R. Argall, M. Hasan Barbhuiya, P. A. Cassak, Shan Wang, J. R. Shuster, Haoming Liang, D. J. Gershman, R. B. Torbert, J. L. Burch

2022Physics of Plasmas18 citationsDOIOpen Access PDF

Abstract

We examine velocity-space kinetic entropy, a spatially local measure of entropy for systems out of thermal equilibrium, during an encounter of an electron diffusion region at a magnetic reconnection site in Earth's magnetotail by the Magnetospheric Multiscale (MMS) mission. We start by generalizing the theory of kinetic entropy to the case of non-uniform velocity space grids and transforming the equations into spherical energy coordinates useful to experimental plasma detectors. The theory is then applied to MMS data and compared to particle-in-cell simulations of reconnection. We demonstrate that the entropy-based non-Maxwellianity measure from the MMS data is of sufficiently high precision to reliably identify non-Maxwellian distributions and therefore the measurements when kinetic effects are most significant. By comparing two different non-Maxwellian measures, we show that total entropy density suffers from “information loss” because it lacks a dependence on the velocity space grid, and so has lost information about how well a distribution function is resolved. Local velocity-space kinetic entropy density recovers this information. We quantify information loss and argue that the considerations needed to minimize it are crucial for instruments designed to measure distribution functions in situ.

Topics & Concepts

PhysicsKinetic energyEntropy (arrow of time)Distribution functionStatistical physicsMagnetic reconnectionElectronComputational physicsClassical mechanicsMagnetic fieldThermodynamicsQuantum mechanicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsAtmospheric Ozone and Climate
Theory, observations, and simulations of kinetic entropy in a magnetotail electron diffusion region | Litcius