Enhanced O2 Loss at Mars Due to an Ambipolar Electric Field from Electron Heating
In: Journal of Geophysical Research, Jg. 121 (2016-05-07), Heft 5
Online
report
Recent results from the MAVEN Langmuir Probe and Waves (LPW) instrument suggest higher than predicted electron temperatures (T sub e) in Mars dayside ionosphere above approx. 180 km in altitude. Correspondingly, measurements from Neutral Gas and Ion Mass Spectrometer (NGIMS) indicate significant abundances of O2+ up to approx. 500 km in altitude, suggesting that O2+ may be a principal ion loss mechanism of oxygen. In this article, we investigate the effects of the higher T(sub e) (which results from electron heating) and ion heating on ion outflow and loss. Numerical solutions show that plasma processes including ion heating and higher T(sub e) may greatly increase O2+ loss at Mars. In particular, enhanced T(sub e) in Mars ionosphere just above the exobase creates a substantial ambipolar electric field with a potential (e) of several k(sub b)T(sub e), which draws ions out of the region allowing for enhanced escape. With active solar wind, electron and ion heating, direct O2+ loss could match or exceed loss via dissociative recombination of O2+. These results suggest that direct loss of O2+ may have played a significant role in the loss of oxygen at Mars over time.
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Enhanced O2 Loss at Mars Due to an Ambipolar Electric Field from Electron Heating
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Autor/in / Beteiligte Person: | Ergun, R. E ; Andersson, L. A ; Fowler, C. M ; Woodson, A. K ; Weber, T. D ; Delory, G. T ; Andrews, D. J ; Eriksson, A. I ; Mcenulty, T ; Morooka, M. W ; Stewart, A. I. F ; Mahaffy, P. R ; Jakosky, B. M |
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Zeitschrift: | Journal of Geophysical Research, Jg. 121 (2016-05-07), Heft 5 |
Veröffentlichung: | United States: NASA Center for Aerospace Information (CASI), 2016 |
Medientyp: | report |
ISSN: | 2156-2202 (print) ; 0148-0227 (print) |
DOI: | 10.1002/2016JA022349 |
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