Pitch‐angle diffusion by whistler mode waves near the Io plasma torus
- 1 August 1979
- journal article
- Published by American Geophysical Union (AGU) in Geophysical Research Letters
- Vol. 6 (8) , 653-656
- https://doi.org/10.1029/gl006i008p00653
Abstract
As Voyager 1 traversed the inner radiation belt of Jupiter, wave‐particle interactions involving energetic electrons and whistler mode turbulence were strongly affected by the presence of the Io plasma torus. Within the high density torus the resonant electron energy was low and the associated high index of refraction yielded high B‐to‐E ratios for the wave fields, leading to very strong pitch‐angle scattering. We show that significant spatial and temporal variations in plasma conditions produced large fluctuations in local scattering times, and we discuss the problems associated with the evaluation of precipitation lifetimes.Keywords
This publication has 23 references indexed in Scilit:
- Voyager 1 Planetary Radio Astronomy Observations Near JupiterScience, 1979
- Jupiter Plasma Wave Observations: An Initial Voyager 1 OverviewScience, 1979
- Whistlers observed by Voyager 1: Detection of lightning on JupiterGeophysical Research Letters, 1979
- Extreme Ultraviolet Observations from Voyager 1 Encounter with JupiterScience, 1979
- A determination of theLdependence of the radial diffusion coefficient for protons in Jupiter's inner magnetosphereJournal of Geophysical Research, 1977
- Radial diffusion in Jupiter's magnetosphereJournal of Geophysical Research, 1976
- Evidence that pitch angle scattering is an important loss mechanism for energetic electrons in the inner radiation belt of JupiterGeophysical Research Letters, 1976
- Pioneer 11 Observations of Energetic Particles in the Jovian MagnetosphereScience, 1975
- Dénouement of Jovian Radiation Belt TheoryPublished by Springer Nature ,1975
- Plasma densities in the Jovian magnetosphere: Plasma slingshot or Maxwell demon?Icarus, 1971