Quantifying the Size and Duration of a Microburst-Producing Chorus Region on 5 December 2017

S S Elliott; A W Breneman; C Colpitts; J M Pettit; C A Cattell; A J Halford; M Shumko; J Sample; A T Johnson; Y Miyoshi; Y Kasahara; C M Cully; S Nakamura; T Mitani; T Hori; I Shinohara; K Shiokawa; S Matsuda; M Connors; M Ozaki; J Manninen

doi:10.1029/2022GL099655

Quantifying the Size and Duration of a Microburst-Producing Chorus Region on 5 December 2017

Geophys Res Lett. 2022 Aug 16;49(15):e2022GL099655. doi: 10.1029/2022GL099655. Epub 2022 Aug 15.

Authors

S S Elliott¹, A W Breneman², C Colpitts¹, J M Pettit³, C A Cattell¹, A J Halford², M Shumko², J Sample⁴, A T Johnson⁴, Y Miyoshi⁵, Y Kasahara⁶, C M Cully⁷, S Nakamura⁵, T Mitani⁸, T Hori⁵, I Shinohara⁸, K Shiokawa⁵, S Matsuda⁶, M Connors⁹, M Ozaki⁶, J Manninen¹⁰

Affiliations

¹ The University of Minnesota Minneapolis MN USA.
² NASA Goddard Space Flight Center Greenbelt MD USA.
³ University of Colorado LASP Boulder CO USA.
⁴ Montana State University Bozeman MT USA.
⁵ ISEE Nagoya University Nagoya Japan.
⁶ Kanazawa University Kanazawa Japan.
⁷ University of Calgary Calgary AB Canada.
⁸ ISAS/JAXA Sagamihara Japan.
⁹ Athabasca University Athabasca AB Canada.
¹⁰ Sodankylä Geophysical Observatory University of Oulu Sodankylä Finland.

Abstract

Microbursts are impulsive (<1 s) injections of electrons into the atmosphere, thought to be caused by nonlinear scattering by chorus waves. Although attempts have been made to quantify their contribution to outer belt electron loss, the uncertainty in the overall size and duration of the microburst region is typically large, so that their contribution to outer belt loss is uncertain. We combine datasets that measure chorus waves (Van Allen Probes [RBSP], Arase, ground-based VLF stations) and microburst (>30 keV) precipitation (FIREBIRD II and AC6 CubeSats, POES) to determine the size of the microburst-producing chorus source region beginning on 5 December 2017. We estimate that the long-lasting (∼30 hr) microburst-producing chorus region extends from 4 to 8 $Δ$ MLT and 2-5 $Δ$ L. We conclude that microbursts likely represent a major loss source of outer radiation belt electrons for this event.

Keywords: chorus waves; electron precipitation; microburst precipitation; radiation belt; wave‐particle interactions.