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First Measurements of Electrons and Waves inside an Electrostatic Solitary Wave

H. S. Fu, F. Chen, Z. Z. Chen, Y. Xu, Z. Wang, Y. Y. Liu, C. M. Liu, Y. V. Khotyaintsev, R. E. Ergun, B. L. Giles, J. L. Burch

2020Physical Review Letters57 citationsDOI

Abstract

Electrostatic solitary wave (ESW)-a Debye-scale structure in space plasmas-was believed to accelerate electrons. However, such a belief is still unverified in spacecraft observations, because the ESW usually moves fast in spacecraft frame and its interior has never been directly explored. Here, we report the first measurements of an ESW's interior, by the Magnetospheric Multiscale mission located in a magnetotail reconnection jet. We find that this ESW has a parallel scale of 5λ_{De} (Debye length), a superslow speed (99 km/s) in spacecraft frame, a longtime duration (250 ms), and a potential drop eφ_{0}/kT_{e}∼5%. Inside the ESW, surprisingly, there is no electron acceleration, no clear change of electron distribution functions, but there exist strong electrostatic electron cyclotron waves. Our observations challenge the conventional belief that ESWs are efficient at particle acceleration.

Topics & Concepts

PhysicsElectronDebye lengthSpacecraftComputational physicsPlasmaAccelerationParticle accelerationDebyeCharged particleClassical mechanicsIonAstronomyQuantum mechanicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsEarthquake Detection and Analysis
First Measurements of Electrons and Waves inside an Electrostatic Solitary Wave | Litcius