Litcius/Paper detail

ULF‐Modulation of Whistler‐Mode Waves in the Inner Magnetosphere During Solar Wind Compression

Xiongjun Shang, Si Liu, Lunjin Chen, Zhonglei Gao, Geng Wang, Qian He, Tong Li, Fuliang Xiao

2021Journal of Geophysical Research Space Physics16 citationsDOI

Abstract

Abstract The solar wind plays important roles in terrestrial magnetosphere dynamics, including the particle population and plasma wave generation. Here, we report an interesting event that ultralow frequency (ULF) waves are enhanced right after solar wind compression and the compressional mode ULF wave subsequently modulates both the intensity and energy flux direction of whistler‐mode waves. Quasi‐periodic whistler‐mode wave packets are observed around = 5.6 at noon sector by Van Allen Probes. Growth rate calculation demonstrates that the compressional mode ULF wave can modulate the whistler‐mode wave intensity by modulating the energetic electron anisotropy. Moreover, the direction of wave energy flux is observed to alternate between northward and southward at equator, which is probably because the intense ULF waves periodically alter the relative direction of the wave source region with respect to the spacecraft. The current results provide a chain of observational evidences to illustrate how the generation and propagation of whistler‐mode waves in the inner magnetosphere are affected by ULF waves during the solar wind dynamic pressure enhancement.

Topics & Concepts

PhysicsMagnetosphereWhistlerGeophysicsSolar windLongitudinal waveComputational physicsVan Allen radiation beltMagnetopausePlasmasphereUltra low frequencyEnergy fluxWave propagationPlasmaOpticsAcousticsAstronomyQuantum mechanicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsGeomagnetism and Paleomagnetism Studies
ULF‐Modulation of Whistler‐Mode Waves in the Inner Magnetosphere During Solar Wind Compression | Litcius