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Eigenmodes of the Transverse Alfvénic Resonator at the Plasmapause: A Van Allen Probes Case Study
Author(s) -
Mager Pavel N.,
Mikhailova Olga S.,
Mager Olga V.,
Klimushkin Dmitri Yu.
Publication year - 2018
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2018gl079596
Subject(s) - physics , plasmasphere , resonator , transverse plane , harmonics , resonance (particle physics) , modulation (music) , computational physics , transverse wave , atomic physics , wave propagation , magnetic field , optics , acoustics , magnetosphere , quantum mechanics , voltage , structural engineering , engineering
A Pc4 ultralow frequency wave was detected at spacecraft B of the Van Allen Probes at the plasmapause. A distinctive feature of this wave is the strong periodical modulation of the wave. It is assumed that this modulation is a beating of oscillations close in frequency: at least two harmonics with frequencies of 15.3 and 13.6 MHz are found. It is shown that these harmonics can be the eigenmodes of the transverse resonator at the local maximum of the Alfvén velocity. In addition, the observed wave was in a drift resonance with energetic 80‐keV protons and could be generated by an unstable bump on tail distribution of protons simultaneously observed with the wave. The estimate of the azimuthal wave number m made from the drift resonance condition gives a value of about −100, that is, it is a westward propagating azimuthally small‐scale wave.