Features of electron current layers: Comparison between three-dimensional particle-in-cell simulations and Cluster observations

Details Features of electron current layers: Comparison between three-dimensional particle-in-cell simulations and Cluster observations Features of electron current layers: Comparison between three-dimensional particle-in-cell simulations and Cluster observations

Apr 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010jgra..11504203s&link_type=abstract

Journal of Geophysical Research, Volume 115, Issue A4, CiteID A04203

Physics

Plasma Physics

5

Solar Physics, Astrophysics, And Astronomy: Magnetic Reconnection (2723, 7835), Space Plasma Physics: Magnetic Reconnection (2723, 7526), Space Plasma Physics: Plasma Energization, Magnetospheric Physics: Magnetic Reconnection (7526, 7835), Magnetospheric Physics: Magnetotail

Scientific paper

Wygant et al. (2005) and more recently Chen et al. (2008) reported Cluster observations on some basic features of electron current layers (ECL) in the magnetotail. These features include (1) a bifurcated ECL consisting of two layers with relatively large currents separated by a region of small current, (2) peaked density at the ECL center bordered by extended low-density regions, (3) bipolar Hall electric fields (EHall), (4) fine-scale, large-amplitude spiky turbulence in the electric fields normal to the plane of the ECL (En), (5) energized electrons that become increasingly isotropized toward the ECL central region, (6) cold electrons bordering the ECL, (7) ions accelerated by the Hall electric field, and (8) ions counterstreaming against the ions accelerated by EHall on both the north and south sides of the neutral sheet at the ECL midplane. We compare all these features with results from fully three-dimensional particle-in-cell simulations of an ECL. Simulations reveal that the fine structures in the electric fields inside the ECL are created by the ECL-driven electrostatic instabilities, which are instrumental in rapid heating and isotropization of the electrons with power law energy distribution, Fe(E) ≈ E-0.7. The heated electrons set up ambipolar electric fields (Ea) in the central part of the ECL, reflecting ions accelerated by EHall. The overall structures in the normal electric fields result from the superposition of EHall, Ea, and the instability-generated electric fields.

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