Limitation of energetic ring current ion spectra

We address the problem of determining the limiting energetic ring current ion spectrum resulting from electromagnetic ion cyclotron (EMIC)‐wave‐ion interactions. We solve the problem in a relativistic regime, incorporating a cold background multi‐ion plasma component and without assuming a predeterm...

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Bibliographic Details
Published in:Journal of geophysical research. Space physics 2015-09, Vol.120 (9), p.7374-7389
Main Authors: Summers, Danny, Shi, Run
Format: Article
Language:English
Subjects:
Constraining
Cyclotrons
Ion energy distribution
Ions
limiting ion spectra
Mathematical models
Planets
Radiation belts
ring current
Ring currents
Spectra
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Summary:We address the problem of determining the limiting energetic ring current ion spectrum resulting from electromagnetic ion cyclotron (EMIC)‐wave‐ion interactions. We solve the problem in a relativistic regime, incorporating a cold background multi‐ion plasma component and without assuming a predetermined form for the ion energy distribution. The limiting (Kennel‐Petschek) spectrum is determined by the condition that the EMIC waves acquire a specified gain over a given convective length scale for all frequencies over which wave growth occurs. We find that the limiting ion spectrum satisfies an integral equation that must be solved numerically. However, at large particle energy E, the limiting spectrum takes the simple form J ∝ 1/E, E → ∞. Moreover, this 1/E spectral shape does not depend on the energetic ion in question nor on the background multi‐ion plasma composition. We provide numerical solutions for the limiting spectra for Earth‐like parameters. In addition, at four planets, Jupiter, Saturn, Uranus, and Neptune, we compare measured ion spectra with corresponding numerical limiting spectra. This paper parallels an earlier analogous study on the limitation of radiation belt electron spectra by whistler mode wave‐electron interactions. Key Points EMIC‐wave‐moderated ring current ion spectra are examined relativistically The limiting ion energy spectrum takes the form J~1/E, at large energy E At the four outer planets we compare observed spectra with the limiting spectra
ISSN:2169-9380
2169-9402
DOI:10.1002/2015JA021482