Low Frequency (f < 200 Hz) Polar Plasmaspheric Hiss: Coherent and Intense
International audienceLow Frequency (LF) ~22 Hz to 200 Hz plasmaspheric hiss was studied using a year of Polar plasma wave data occurring during solar cycle minimum. The waves are found to be most intense in the noon and early dusk sectors. When only the
Pierre Henri +20 more
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Wave-particle interaction effects in the Van Allen belts. [PDF]
Baker DN.
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Propagation analysis of plasmaspheric hiss using Polar PWI measurements
International audienceWe have analyzed high-rate waveform data, taken Storey et al. [1991] however observed hiss emissions even by the POLAR Plasma Wave Instrument at high altitudes in when, after long periods of magnetic calm, the plasmapause the ...
Storey, L., R O +4 more
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Intense chorus waves are the cause of flux-limiting in the heart of the outer radiation belt. [PDF]
Chakraborty S +8 more
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Guided Plasmaspheric Hiss Interactions with Superthermal Electrons
Under the proper conditions, guided plasmaspheric hiss is shown to be more efficient than Coulomb collisions at scattering electrons in the superthermal energy range of 50 to 500 eV.
Liemohn, M. W. +2 more
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A Dynamical Model of Equatorial Magnetosonic Waves in the Inner Magnetosphere: A Machine Learning Approach. [PDF]
Boynton RJ +4 more
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The attenuation of plasmaspheric hiss associated with the enhanced magnetospheric electric field [PDF]
We report an attenuation of hiss wave intensity in the duskside of the outer plasmasphere in response to enhanced convection and a substorm based on Van Allen Probe observations.
Tang, Rongxin +7 more
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A Test of Energetic Particle Precipitation Models Using Simultaneous Incoherent Scatter Radar and Van Allen Probes Observations. [PDF]
Sanchez ER +7 more
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A Climatology of Long-Duration High 2-MeV Electron Flux Periods in the Outer Radiation Belt. [PDF]
Mourenas D +3 more
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Relativistic-electron dropouts and recovery: A superposed epoch study of the magnetosphere and the solar wind [PDF]
During 124 high-speed-stream-driven storms from two solar cycles, a multispacecraft average of the 1.1–1.5 MeV electron flux measured at geosynchronous orbit is examined to study global dropouts of the flux. Solar wind and magnetospheric measurements are
Denton, Michael H., Borovsky, J. E.
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