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- Title
Evolution of Pitch Angle‐Distributed Megaelectron Volt Electrons During Each Phase of the Geomagnetic Storm.
- Authors
Pandya, Megha; Bhaskara, Veenadhari; Ebihara, Yusuke; Kanekal, Shrikanth G.; Baker, Daniel N.
- Abstract
Using Relativistic Electron Proton Telescope measurements onboard Van Allen Probes, the evolution of electron pitch angle distributions (PADs) during the different phases of magnetic storms is studied. Electron fluxes are sorted in terms of storm phase, L value, energy, and magnetic local time (MLT) sectors for 55 magnetic storms from October 2012 through May 2017. To understand the potential mechanisms for the evolution of electron PADs, we fit PADs to a sinusoidal function J0sinn(αeq), where αeq is the equatorial pitch angle and n is a real number. The major inferences from our study are (i) at L∼5, the prestorm electron PADs are nearly isotropic (n∼0), which evolves differently in different MLT sectors during the main phase subsequently recovering back to nearly isotropic distribution type during the storm recovery phase; (ii) for E ≤ 3.4 MeV, the main phase electron PADs become more pancake like on the dayside with high n values (>3), while it becomes more flattop to butterfly like on the nightside, (iii) at L = 5, magnetic field strength during the storm main phase enhances during the daytime and decreases during the nighttime. (iv) Conversely, at L ∼3, the electron PADs neither respond significantly to the different phase of the magnetic storm nor reflect any MLT dependence. (v) Main phase, electron fluxes with E <4.2 MeV shows a persistent 90° maximum PAD with n ranging between 0 and 2, while for E ≥ 4.2 MeV the distribution appears flattop and butterfly like. Our study shows that the relativistic electron PADs depend upon the geomagnetic storm phase and possible underlying mechanisms are discussed in this paper. Key Points: Storm time electron pitch angle distributions (PADs) at L = 5 peak on the dayside, while it turns butterfly like on the nightsideAt L = 3, PADs of electrons do not change significantly between prestorm and at‐storm intervalsMagnetic field during at storm interval (Bat) decreases on the nightside, while increasing on the dayside
- Subjects
MAGNETIC storms; RELATIVISTIC electrons; MAGNETIC flux density; RADIATION belts; MAGNETOSPHERE
- Publication
Journal of Geophysical Research. Space Physics, 2020, Vol 125, Issue 1, pN.PAG
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2019JA027086