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Main Authors: Nykyri, Katariina, Chu, Christina, Ma, Xuanye, Rice, Rachel
Format: Preprint
Published: 2018
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Online Access:https://arxiv.org/abs/1803.01935
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author Nykyri, Katariina
Chu, Christina
Ma, Xuanye
Rice, Rachel
author_facet Nykyri, Katariina
Chu, Christina
Ma, Xuanye
Rice, Rachel
contents Recent Magnetosphere Multiscale (MMS) observations found 238 high energy (> 40 keV) electron "leaking" events in the the magnetosheath [Cohen et al., 2017]. While several sources have been proposed, the dominant mechanism or origin of these particles is not well understood. We have analyzed MMS locations during these these events and found that most of these electron leaking events were observed close to the southern high-altitude cusp and associated boundaries, so these events may have a high-latitude source. Here we present a new case study of observations of a MMS encounter of southern magnetospheric cusp boundaries. In the magnetosheath side of the southern cusp, MMS observes both parallel streaming energetic ions, as well as a population with 90 degree pitch angles. Subsequently, MMS detects plasma flows and magnetic field rotation consistent with magnetic reconnection (operating above and dawn-ward of the MMS spacecraft), finally entering a depressed magnetic field region with nearly stagnant flow. The depressed field region is occupied by high-fluxes of trapped high-energy electrons and protons, which resemble the Cluster observations of cusp diamagnetic cavities at the northern hemisphere [Nykyri et al., 2011a]. However, the local magnetic field geometry during the prevailing IMF orientation is not favorable for magnetic reconnection to directly create a cavity in this location. We show that the plasma flows that were observed prior to cavity observation satisfy the onset condition for the Kelvin-Helmholtz instability for 50 percent of all available k-vector directions.
format Preprint
id arxiv_https___arxiv_org_abs_1803_01935
institution arXiv
publishDate 2018
record_format arxiv
spellingShingle Magnetospheric Multi-Scale Observations of High-Energy Electrons and Protons in the Vicinity of Southern High-Altitude Cusp Boundaries
Nykyri, Katariina
Chu, Christina
Ma, Xuanye
Rice, Rachel
Space Physics
Recent Magnetosphere Multiscale (MMS) observations found 238 high energy (> 40 keV) electron "leaking" events in the the magnetosheath [Cohen et al., 2017]. While several sources have been proposed, the dominant mechanism or origin of these particles is not well understood. We have analyzed MMS locations during these these events and found that most of these electron leaking events were observed close to the southern high-altitude cusp and associated boundaries, so these events may have a high-latitude source. Here we present a new case study of observations of a MMS encounter of southern magnetospheric cusp boundaries. In the magnetosheath side of the southern cusp, MMS observes both parallel streaming energetic ions, as well as a population with 90 degree pitch angles. Subsequently, MMS detects plasma flows and magnetic field rotation consistent with magnetic reconnection (operating above and dawn-ward of the MMS spacecraft), finally entering a depressed magnetic field region with nearly stagnant flow. The depressed field region is occupied by high-fluxes of trapped high-energy electrons and protons, which resemble the Cluster observations of cusp diamagnetic cavities at the northern hemisphere [Nykyri et al., 2011a]. However, the local magnetic field geometry during the prevailing IMF orientation is not favorable for magnetic reconnection to directly create a cavity in this location. We show that the plasma flows that were observed prior to cavity observation satisfy the onset condition for the Kelvin-Helmholtz instability for 50 percent of all available k-vector directions.
title Magnetospheric Multi-Scale Observations of High-Energy Electrons and Protons in the Vicinity of Southern High-Altitude Cusp Boundaries
topic Space Physics
url https://arxiv.org/abs/1803.01935