Chorus acceleration of radiation belt relativistic electrons during March 2013 geomagnetic storm

Fuliang Xiao; Chang Yang; Zhaoguo He; Zhenpeng Su; Qinghua Zhou; Yihua He; C. A. Kletzing; W. S. Kurth; G. B. Hospodarsky; H. E. Spence; G. D. Reeves; H. O. Funsten; J. B. Blake; D. N. Baker; J. R. Wygant

doi:10.1002/2014JA019822

Chorus acceleration of radiation belt relativistic electrons during March 2013 geomagnetic storm

Fuliang Xiao, Chang Yang, Zhaoguo He, Zhenpeng Su, Qinghua Zhou, Yihua He, C. A. Kletzing, W. S. Kurth, G. B. Hospodarsky, H. E. Spence, G. D. Reeves, H. O. Funsten, J. B. Blake, D. N. Baker, J. R. Wygant

Physics and Astronomy (Twin Cities)

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Abstract

The recent launching of Van Allen probes provides an unprecedent opportunity to investigate variations of the radiation belt relativistic electrons. During the 17-19 March 2013 storm, the Van Allen probes simultaneously detected strong chorus waves and substantial increases in fluxes of relativistic (2 - 4.5 MeV) electrons around L = 4.5. Chorus waves occurred within the lower band 0.1-0.5f_ce (the electron equatorial gyrofrequency), with a peak spectral density ∼10^-4 nT ²/Hz. Correspondingly, relativistic electron fluxes increased by a factor of 10²-10³ during the recovery phase compared to the main phase levels. By means of a Gaussian fit to the observed chorus spectra, the drift and bounce-averaged diffusion coefficients are calculated and then used to solve a 2-D Fokker-Planck diffusion equation. Numerical simulations demonstrate that the lower-band chorus waves indeed produce such huge enhancements in relativistic electron fluxes within 15 h, fitting well with the observation. Key Points Initial RBSP correlated data of chorus waves and relativistic electron fluxes A realistic simulation to examine effect of chorus on relativistic electron flux Chorus yields huge increases in electron flux rapidly, consistent with data

Original language	English (US)
Pages (from-to)	3325-3332
Number of pages	8
Journal	Journal of Geophysical Research: Space Physics
Volume	119
Issue number	5
DOIs	https://doi.org/10.1002/2014JA019822
State	Published - May 2014

Keywords

RBSP results
chorus waves
relativistic electron acceleration
wave-particle interaction

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Xiao, F., Yang, C., He, Z., Su, Z., Zhou, Q., He, Y., Kletzing, C. A., Kurth, W. S., Hospodarsky, G. B., Spence, H. E., Reeves, G. D., Funsten, H. O., Blake, J. B., Baker, D. N., & Wygant, J. R. (2014). Chorus acceleration of radiation belt relativistic electrons during March 2013 geomagnetic storm. Journal of Geophysical Research: Space Physics, 119(5), 3325-3332. https://doi.org/10.1002/2014JA019822

Xiao, F, Yang, C, He, Z, Su, Z, Zhou, Q, He, Y, Kletzing, CA, Kurth, WS, Hospodarsky, GB, Spence, HE, Reeves, GD, Funsten, HO, Blake, JB, Baker, DN & Wygant, JR 2014, 'Chorus acceleration of radiation belt relativistic electrons during March 2013 geomagnetic storm', Journal of Geophysical Research: Space Physics, vol. 119, no. 5, pp. 3325-3332. https://doi.org/10.1002/2014JA019822

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abstract = "The recent launching of Van Allen probes provides an unprecedent opportunity to investigate variations of the radiation belt relativistic electrons. During the 17-19 March 2013 storm, the Van Allen probes simultaneously detected strong chorus waves and substantial increases in fluxes of relativistic (2 - 4.5 MeV) electrons around L = 4.5. Chorus waves occurred within the lower band 0.1-0.5fce (the electron equatorial gyrofrequency), with a peak spectral density ∼10-4 nT 2/Hz. Correspondingly, relativistic electron fluxes increased by a factor of 102-103 during the recovery phase compared to the main phase levels. By means of a Gaussian fit to the observed chorus spectra, the drift and bounce-averaged diffusion coefficients are calculated and then used to solve a 2-D Fokker-Planck diffusion equation. Numerical simulations demonstrate that the lower-band chorus waves indeed produce such huge enhancements in relativistic electron fluxes within 15 h, fitting well with the observation. Key Points Initial RBSP correlated data of chorus waves and relativistic electron fluxes A realistic simulation to examine effect of chorus on relativistic electron flux Chorus yields huge increases in electron flux rapidly, consistent with data",

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author = "Fuliang Xiao and Chang Yang and Zhaoguo He and Zhenpeng Su and Qinghua Zhou and Yihua He and Kletzing, {C. A.} and Kurth, {W. S.} and Hospodarsky, {G. B.} and Spence, {H. E.} and Reeves, {G. D.} and Funsten, {H. O.} and Blake, {J. B.} and Baker, {D. N.} and Wygant, {J. R.}",

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AU - Xiao, Fuliang

AU - Yang, Chang

AU - He, Zhaoguo

AU - Su, Zhenpeng

AU - Zhou, Qinghua

AU - He, Yihua

AU - Kletzing, C. A.

AU - Kurth, W. S.

AU - Hospodarsky, G. B.

AU - Spence, H. E.

AU - Reeves, G. D.

AU - Funsten, H. O.

AU - Blake, J. B.

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AU - Wygant, J. R.

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N2 - The recent launching of Van Allen probes provides an unprecedent opportunity to investigate variations of the radiation belt relativistic electrons. During the 17-19 March 2013 storm, the Van Allen probes simultaneously detected strong chorus waves and substantial increases in fluxes of relativistic (2 - 4.5 MeV) electrons around L = 4.5. Chorus waves occurred within the lower band 0.1-0.5fce (the electron equatorial gyrofrequency), with a peak spectral density ∼10-4 nT 2/Hz. Correspondingly, relativistic electron fluxes increased by a factor of 102-103 during the recovery phase compared to the main phase levels. By means of a Gaussian fit to the observed chorus spectra, the drift and bounce-averaged diffusion coefficients are calculated and then used to solve a 2-D Fokker-Planck diffusion equation. Numerical simulations demonstrate that the lower-band chorus waves indeed produce such huge enhancements in relativistic electron fluxes within 15 h, fitting well with the observation. Key Points Initial RBSP correlated data of chorus waves and relativistic electron fluxes A realistic simulation to examine effect of chorus on relativistic electron flux Chorus yields huge increases in electron flux rapidly, consistent with data

AB - The recent launching of Van Allen probes provides an unprecedent opportunity to investigate variations of the radiation belt relativistic electrons. During the 17-19 March 2013 storm, the Van Allen probes simultaneously detected strong chorus waves and substantial increases in fluxes of relativistic (2 - 4.5 MeV) electrons around L = 4.5. Chorus waves occurred within the lower band 0.1-0.5fce (the electron equatorial gyrofrequency), with a peak spectral density ∼10-4 nT 2/Hz. Correspondingly, relativistic electron fluxes increased by a factor of 102-103 during the recovery phase compared to the main phase levels. By means of a Gaussian fit to the observed chorus spectra, the drift and bounce-averaged diffusion coefficients are calculated and then used to solve a 2-D Fokker-Planck diffusion equation. Numerical simulations demonstrate that the lower-band chorus waves indeed produce such huge enhancements in relativistic electron fluxes within 15 h, fitting well with the observation. Key Points Initial RBSP correlated data of chorus waves and relativistic electron fluxes A realistic simulation to examine effect of chorus on relativistic electron flux Chorus yields huge increases in electron flux rapidly, consistent with data

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KW - wave-particle interaction

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Chorus acceleration of radiation belt relativistic electrons during March 2013 geomagnetic storm

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