Observational Evidence for Stochastic Shock Drift Acceleration of Electrons at the Earth's Bow Shock

Observational Evidence for Stochastic Shock Drift Acceleration of Electrons at the Earth's Bow Shock

The first-order Fermi acceleration of electrons requires an injection of electrons into a mildly relativistic energy range. However, the mechanism of injection has remained a puzzle both in theory and observation. We present direct evidence for a novel stochastic shock drift acceleration theory for...

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Veröffentlicht in:Physical review letters 2020-02, Vol.124 (6), p.065101-065101, Article 065101
Hauptverfasser: Amano, T, Katou, T, Kitamura, N, Oka, M, Matsumoto, Y, Hoshino, M, Saito, Y, Yokota, S, Giles, B L, Paterson, W R, Russell, C T, Le Contel, O, Ergun, R E, Lindqvist, P-A, Turner, D L, Fennell, J F, Blake, J B
Format: Artikel
Sprache:eng
Schlagworte:
Astrophysics
Charged particles
Drift
Earth magnetosphere
Electron acceleration
General Physics
Observational studies
Physics
Relativistic effects
Relativistic velocity
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Zusammenfassung:The first-order Fermi acceleration of electrons requires an injection of electrons into a mildly relativistic energy range. However, the mechanism of injection has remained a puzzle both in theory and observation. We present direct evidence for a novel stochastic shock drift acceleration theory for the injection obtained with Magnetospheric Multiscale observations at the Earth's bow shock. The theoretical model can explain electron acceleration to mildly relativistic energies at high-speed astrophysical shocks, which may provide a solution to the long-standing issue of electron injection.
ISSN:0031-9007
1079-7114
1079-7114
DOI:10.1103/PhysRevLett.124.065101