SM32B-04
Inferring boundary layer structure from auroral precipitation and field-aligned currrents

Wednesday, 16 December 2015: 11:04
2016 (Moscone West)
Jay Johnson, Princeton University, Plasma Physics Laboratiry, Princeton, NJ, United States
Abstract:
Sheared plasma flows at the low-latitude boundary layer (LLBL) correlate well with early afternoon auroral arcs and upward field-aligned currents. We present a simple analytic model that relates solar wind and ionospheric parameters to the strength and thickness of field-aligned currents and auroral precipitation in a region of sheared velocity, such as the LLBL. We compare the predictions of the model with DMSP observations and find remarkably good scaling of the upward region 1 currents with solar wind and ionospheric parameters in region located at the boundary layer or open field lines at 1100–1700 magnetic local time. The analytic model provides a simple way to organize data and to infer boundary layer structures from ionospheric data.