Propagation of ULF waves from the upstream region to the midnight sector of the inner magnetosphere

Ultralow frequency (ULF) waves generated in the ion foreshock are a well‐known source of Pc3‐Pc4 waves (7–100 mHz) observed in the dayside magnetosphere. We use data acquired on 10 April 2013 by multiple spacecraft to demonstrate that ULF waves of upstream origin can propagate to the midnight sector...

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Bibliographic Details
Published in:Journal of geophysical research. Space physics 2016-09, Vol.121 (9), p.8428-8447
Main Authors: Takahashi, Kazue, Hartinger, Michael D., Malaspina, David M., Smith, Charles W., Koga, Kiyokazu, Singer, Howard J., Frühauff, Dennis, Baishev, Dmitry G., Moiseev, Alexey V., Yoshikawa, Akimasa
Format: Article
Language:English
Subjects:
Amplitude modulation
Computational fluid dynamics
Data acquisition
Extremely low frequencies
Fluid flow
Geophysics
Interplanetary magnetic field
Magnetic fields
Magnetism
Magnetohydrodynamics
Magnetospheres
midnight sector
Oscillations
Pc3 waves
Pc4 waves
plasmasphere
Propagation
Propagation velocity
Spacecraft
ULF
ULF waves
Upstream
upstream waves
Wave energy
Wave power
Wave propagation
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Summary:Ultralow frequency (ULF) waves generated in the ion foreshock are a well‐known source of Pc3‐Pc4 waves (7–100 mHz) observed in the dayside magnetosphere. We use data acquired on 10 April 2013 by multiple spacecraft to demonstrate that ULF waves of upstream origin can propagate to the midnight sector of the inner magnetosphere. At 1130–1730 UT on the selected day, the two Van Allen Probes spacecraft and the geostationary ETS‐VIII satellite detected compressional 20 to 40 mHz magnetic field oscillations between L ∼ 4 and L ∼ 7 in the midnight sector, along with other spacecraft located closer to noon. Upstream origin of the oscillations is concluded from the wave frequency that matches a theoretical model, globally coherent amplitude modulation, and duskward propagation that is consistent with expected entry of the upstream wave energy through the dawnside flank under the observed interplanetary magnetic field. The oscillations are attributed to magnetohydrodynamic fast‐mode waves based on their propagation velocity of ∼300 km/s and the relationship between the electric and magnetic field perturbations. The magnitude of the azimuthal wave number is estimated to be ∼30. There is no evidence that the oscillations propagated to the ground in the midnight sector. Key Points Compressional Pc3 waves were detected in the magnetosphere both on the dayside and nightside with global coherence in amplitude modulation Phase delay analysis using three spacecraft in the midnight sector indicates duskward propagation of the waves The oscillations are attributed to fast‐mode waves originating from ULF waves generated in the ion foreshock
ISSN:2169-9380
2169-9402
DOI:10.1002/2016JA022958