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Electrostatic Turbulence and Debye-scale Structures in Collisionless Shocks

R. Wang, I. Y. Vasko, F. S. Mozer, S. D. Bale, A. V. Artemyev, J. W. Bonnell, R. Ergun, B. Giles, P.-A. Lindqvist, C. T. Russell, R. Strangeway

2020The Astrophysical Journal Letters44 citationsDOIOpen Access PDF

Abstract

Abstract We present analysis of more than 100 large-amplitude bipolar electrostatic structures in a quasi-perpendicular supercritical Earth’s bow shock crossing, measured by the Magnetospheric Multiscale spacecraft. The occurrence of the bipolar structures is shown to be tightly correlated with magnetic field gradients in the shock transition region. The bipolar structures have negative electrostatic potentials and spatial scales of a few Debye lengths. The bipolar structures propagate highly oblique to the shock normal with velocities (in the plasma rest frame) of the order of the ion-acoustic velocity. We argue that the bipolar structures are ion phase space holes produced by the two-stream instability between incoming and reflected ions. This is the first identification of the ion two-stream instability in collisionless shocks.

Topics & Concepts

PhysicsInstabilityShock (circulatory)PlasmaOblique shockMagnetic fieldShock waveBow shock (aerodynamics)MechanicsClassical mechanicsTurbulenceElectric fieldIonField (mathematics)Quantum electrodynamicsOblique caseComputational physicsSpace (punctuation)Phase (matter)Debye lengthKinetic energyBow waveAtomic physicsSupercritical fluidMagnetic reconnectionTransverse planeDebyeIonosphere and magnetosphere dynamicsDust and Plasma Wave PhenomenaSolar and Space Plasma Dynamics
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