SA24A-06
F-region and Topside Plasma Response During Geomagnetic Storms

Tuesday, 15 December 2015: 17:06
2016 (Moscone West)
Timothy J Fuller-Rowell1, Mariangel Fedrizzi1, Naomi Maruyama1, Phil Richards2, Tzu-Wei Fang1 and Mihail Codrescu3, (1)Univ of Colorado-CIRES, Boulder, CO, United States, (2)George Mason University Fairfax, School of Physics, Astronomy, and Computational Sciences, Fairfax, VA, United States, (3)NOAA, Space Weather Prediction Center, Boulder, CO, United States
Abstract:
The noon to dusk mid-latitudes sector appears to be a preferred region for substantial rise in plasma density during elevated geomagnetic activity. Previous the plasma density increase in this sector was referred to as the “dusk effect” and more recently the “storm enhanced density”. Certainly in some longitude sectors, if the increase in magnetospheric convection occurs at the appropriate Universal Time, the activity does not need to be particularly strong to produce a significant increase in plasma content, such as during the February 27th 2014 event when Kp reached only 6 but there was substantial loss of the FAA WAAS system. The March 2015 St. Patrick’s Day storm was considerably more intense with respect to Kp and Dst, and different in timing and duration, so the response and longitude sectors affected were quite different. Numerical simulation of the St. Patrick’s Day storm with a coupled thermosphere-ionosphere model (CTIPe) and a stand-alone ionosphere-plasmasphere code (IPE) can be used to understand the physical processes in the plasma and neutral response. In particular the focus is on the vertical distribution of the plasma from the F-region to the topside. The models can be used to assess the impact of electric fields, meridional neutral winds, and solar illumination aiding plasma buildup and storage, neutral composition creating depletions, and magnetospheric convection creating structure.