Ionospheric Ambipolar Electric Fields of Mars and Venus: Comparisons Between Theoretical Predictions and Direct Observations of the Electric Potential Drop
G. Collinson(Goddard Space Flight Center), B. M. Jakosky(Laboratory for Atmospheric and Space Physics), L. Andersson(University of Colorado Boulder), J. M. Grebowsky(Goddard Space Flight Center), A. Glocer(Goddard Space Flight Center), R. A. Frahm(Southwest Research Institute), Shaosui Xu(Berkeley College), D. L. Mitchell(University of California, Berkeley)
Cited by 38
Related Papers
Fast Plasma Investigation for Magnetospheric Multiscale
|Space Science Reviews|2016|1.3k
Structure, dynamics, and seasonal variability of the Mars‐solar wind interaction: MAVEN Solar Wind Ion Analyzer in‐flight performance and science results
|Journal of Geophysical Research Space Physics|2016|271
Martian low‐altitude magnetic topology deduced from MAVEN/SWEA observations
|Journal of Geophysical Research Space Physics|2017|150
A Technique to Infer Magnetic Topology at Mars and Its Application to the Terminator Region
|Journal of Geophysical Research Space Physics|2019|107
The Twisted Configuration of the Martian Magnetotail: MAVEN Observations
|Geophysical Research Letters|2018|105