Earth and Space Science (Jul 2021)

Swarm Observations of Dawn/Dusk Asymmetries Between Pedersen Conductance in Upward and Downward Field‐Aligned Current Regions

  • L. Olifer,
  • C. Feltman,
  • R. Ghaffari,
  • S. Henderson,
  • D. Huyghebaert,
  • J. Burchill,
  • A. N. Jaynes,
  • D. Knudsen,
  • K. McWilliams,
  • J. I. Moen,
  • A. Spicher,
  • J. Wu

DOI
https://doi.org/10.1029/2020EA001167
Journal volume & issue
Vol. 8, no. 7
pp. n/a – n/a

Abstract

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Abstract The locations of region 1 and 2 field‐aligned current systems were determined using fluxgate magnetometer measurements from 875 dawn‐dusk passes of the Swarm A satellite. Within each field‐aligned current region, the ionospheric Pedersen conductance was derived from the newly corrected Swarm electric and magnetic field measurements. The Pedersen conductances are generally consistent with photoionization models. However, we show that the in situ method of determining Pedersen conductance allows for a more complete description of magnetosphere‐ionosphere coupling and should be used in future studies when possible. We show that, overall, the Pedersen conductance is larger in the upward current region than in the downward region by ∼0.6 S on the dawn side of the Earth. Meanwhile, the dusk side Pedersen conductance is equivalent in both current regions. We attribute this asymmetry to dawn side energetic electron precipitation, commonly associated with substorm electron injections from the magnetotail.

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