Affiliation:
1. Charles University, Faculty of Mathematics and Physics Prague Czech Republic
2. Department of Physics and Astronomy West Virginia University Morgantown WV USA
3. Johns Hopkins University Applied Physics Laboratory Laurel MD USA
Abstract
AbstractPlasma Depletion Events (PDEs) are characterized by abrupt, localized reductions in ionospheric plasma density at least by an order of magnitude decrease. These events are observed over a limited range of altitudes, typically spanning a few tens of kilometers. We use Mars Atmosphere and Volatile Evolution spacecraft data to investigate the properties and possible formation mechanism of daytime PDEs, typically observed at altitudes above 250 km. We show, using two example events and statistical analysis, that the depletion events are associated with electrostatic fluctuations and increased electron temperatures. The events are further accompanied by enhanced fluxes of suprathermal electrons and light energetic ions. These are indicative of local plasma heating, possibly mediated by the electrostatic fluctuations. The heated plasma may eventually escape from the depletion region through the ambipolar diffusion.
Funder
National Aeronautics and Space Administration
Publisher
American Geophysical Union (AGU)