Electrostatic Steepening of Whistler Waves.

I Y Vasko O V Agapitov F S Mozer J W Bonnell A V Artemyev V V Krasnoselskikh Y Tong

Phys Rev Lett

Space Sciences Laboratory, University of California, Berkeley, California 94720, USA.

Published: May 2018

The NASA Van Allen Probes discovered whistler waves with significant electric field power at harmonic frequencies, surprising researchers.
The presence of harmonic wave power is attributed to a nonlinearly steepened electrostatic field in a two-temperature electron plasma, resulting from the interaction of whistler waves with the electron-acoustic mode.
Simulations indicate that this steepening process occurs in just a few tens of milliseconds, allowing for effective energy transfer from high-energy to lower-energy electrons.

We present surprising observations by the NASA Van Allen Probes spacecraft of whistler waves with substantial electric field power at harmonics of the whistler wave fundamental frequency. The wave power at harmonics is due to a nonlinearly steepened whistler electrostatic field that becomes possible in the two-temperature electron plasma due to the whistler wave coupling to the electron-acoustic mode. The simulation and analytical estimates show that the steepening takes a few tens of milliseconds. The hydrodynamic energy cascade to higher frequencies facilitates efficient energy transfer from cyclotron resonant electrons, driving the whistler waves, to lower energy electrons.

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http://dx.doi.org/10.1103/PhysRevLett.120.195101	DOI Listing

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