The Astrophysical Journal (Jan 2023)

On the Short-scale Spatial Variability of Electron Inflows in Electron-only Magnetic Reconnection in the Turbulent Magnetosheath Observed by MMS

  • P. S. Pyakurel,
  • T. D. Phan,
  • J. F. Drake,
  • M. A. Shay,
  • M. Øieroset,
  • C. C. Haggerty,
  • J. Stawarz,
  • J. L. Burch,
  • R. E. Ergun,
  • D. J. Gershman,
  • B. L. Giles,
  • R. B. Torbert,
  • R. J. Strangeway,
  • C. T. Russell

DOI
https://doi.org/10.3847/1538-4357/acb6f1
Journal volume & issue
Vol. 948, no. 1
p. 20

Abstract

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We investigate the detailed properties of electron inflow in an electron-only reconnection event observed by the four Magnetospheric Multiscale (MMS) spacecraft in the Earth's turbulent magnetosheath downstream of the quasi-parallel bow shock. The lack of ion coupling was attributed to the small-scale sizes of the current sheets, and the observed bidirectional super-Alfvénic electron jets indicate that the MMS spacecraft crossed the reconnecting current sheet on both sides of an active X-line. Remarkably, the MMS spacecraft observed the presence of large asymmetries in the two electron inflows, with the inflows (normal to the current sheet) on the two sides of the reconnecting current layer differing by as much as a factor of four. Furthermore, even though the four MMS spacecraft were separated by less than seven electron skin depths, the degree of inflow asymmetry was significantly different at the different spacecraft. The asymmetry in the inflow speeds was larger with increasing distances downstream from the reconnection site, and the asymmetry was opposite on the two sides of the X-line. We compare the MMS observations with a 2D kinetic particle-in-cell (PIC) simulation and find that the asymmetry in the inflow speeds stems from in-plane currents generated via the combination of reconnection-mediated inflows and parallel flows along the magnetic separatrices in the presence of a large guide field.

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