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Properties of Lightning Generated Whistlers Based on Van Allen Probes Observations and Their Global Effects on Radiation Belt Electron Loss

Alex Green, Wen Li, Qianli Ma, Xiaochen Shen, Jacob Bortnik, G. B. Hospodarsky

2020Geophysical Research Letters51 citationsDOI

Abstract

Abstract Lightning generated whistlers (LGWs) play an important role in precipitating energetic electrons in the Earth's inner radiation belt and beyond. Wave burst data from the Van Allen Probes are used to unambiguously identify LGWs and analyze their properties at L < 4 by extending their frequencies down to ~100 Hz for the first time. The statistical results show that LGWs typically occur at frequencies from 100 Hz to 10 kHz with the major wave power below the equatorial lower hybrid resonance frequency, and their wave amplitudes are typically strong at L < 3 with an occurrence rate up to ~30% on the nightside. The lifetime calculation indicates that LGWs play an important role in scattering electrons from tens of keV to several MeV at L < ~2.5. Our newly constructed LGW models are critical for evaluating the global effects of LGWs on energetic electron loss at L < 4.

Topics & Concepts

WhistlerVan Allen radiation beltPhysicsLightning (connector)ElectronAmplitudeRadiationComputational physicsVan Allen ProbesScatteringElectron scatteringVery low frequencyAtomic physicsGeophysicsPower (physics)MagnetosphereOpticsNuclear physicsPlasmaAstronomyQuantum mechanicsIonosphere and magnetosphere dynamicsLightning and Electromagnetic PhenomenaAtmospheric aerosols and clouds
Properties of Lightning Generated Whistlers Based on Van Allen Probes Observations and Their Global Effects on Radiation Belt Electron Loss | Litcius