Chorus and Hiss Scales in the Inner Magnetosphere: Statistics From High‐Resolution Filter Bank (FBK) Van Allen Proves Multi‐Point Measurements

O. Agapitov; D. Mourenas; A. Artemyev; A. Breneman; J. W. Bonnell; G. Hospodarsky; J. Wygant

doi:10.1029/2020JA028998

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Chorus and Hiss Scales in the Inner Magnetosphere: Statistics From High‐Resolution Filter Bank (FBK) Van Allen Proves Multi‐Point Measurements

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Chorus and Hiss Scales in the Inner Magnetosphere: Statistics From High‐Resolution Filter Bank (FBK) Van Allen Proves Multi‐Point Measurements

O. Agapitov, D. Mourenas, A. Artemyev, A. Breneman, J. W. Bonnell, G. Hospodarsky and J. Wygant

Journal of geophysical research. Space physics, Vol.126(7), e2020JA028998

07/2021

DOI: 10.1029/2020JA028998

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Abstract

The spatial scales of whistler-mode waves, determined by their generation process, propagation, and damping, are important for assessing the scaling and efficiency of wave-particle interactions affecting the dynamics of the radiation belts. We use multi-point wave measurements by two Van Allen Probes in 2013–2019 covering all MLTs at L = 2–6 to investigate the spatial extent of active regions of chorus and hiss waves, their wave amplitude distribution in the source/generation region, and the scales of chorus wave packets, employing a time-domain correlation technique to the spacecraft approaches closer than 1,000 km, which happened every 70 days in 2012–2018 and every 35 days in 2018–2019. The correlation of chorus wave power dynamics using is found to remain significant up to inter-spacecraft separations of 400–750 km transverse to the background magnetic field direction, consistent with previous estimates of the chorus wave packet extent. Our results further suggest that the chorus source region can be slightly asymmetrical, more elongated in either the azimuthal or radial direction, which could also explain the aforementioned two different scales. An analysis of average chorus and hiss wave amplitudes at separate locations similarly shows the reveals different radial and azimuthal extents of the corresponding wave active regions, complementing previous results based on THEMIS spacecraft statistics mainly at larger L > 6. Both the chorus source region scale and the chorus active region size appear smaller inside the outer radiation belt (at L < 6) than at higher L-shells.

Details

Title: Subtitle: Chorus and Hiss Scales in the Inner Magnetosphere: Statistics From High‐Resolution Filter Bank (FBK) Van Allen Proves Multi‐Point Measurements
Creators: O. Agapitov - University of California, Berkeley
D. Mourenas - CEA DAM Île-de-France
A. Artemyev - UCLA Health
A. Breneman - University of Minnesota
J. W. Bonnell - University of California, Berkeley
G. Hospodarsky - University of Iowa
J. Wygant - University of Minnesota
Resource Type: Journal article
Publication Details: Journal of geophysical research. Space physics, Vol.126(7), e2020JA028998
DOI: 10.1029/2020JA028998
ISSN: 2169-9380
eISSN: 2169-9402
Grant note: DOI: 10.13039/100000104, name: National Aeronautics and Space Administration, award: 80NNSC19K0848, 80NSSC20K0218, NNX16AF85GS004, 80NSSC19K0264; DOI: 10.13039/100000001, name: National Science Foundation, award: 1914670
Language: English
Date published: 07/2021
Academic Unit: Physics and Astronomy
Record Identifier: 9984455265902771

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