Predicting the long-term solar wind ion-sputtering source at Mercury

Details Predicting the long-term solar wind ion-sputtering source at Mercury Predicting the long-term solar wind ion-sputtering source at Mercury

Sep 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007p%26ss...55.1584s&link_type=abstract

Planetary and Space Science, Volume 55, Issue 11, p. 1584-1595.

Mathematics

Probability

18

Scientific paper

Maps of the precipitating solar wind proton flux onto Mercury's surface are constructed using a modified Toffoletto Hill (TH93) model of the Hermean magnetosphere. Solar wind and IMF conditions around Mercury's orbit near aphelion and perihelion, respectively, were estimated by reanalyzing the Helios 40-s data for times when the spacecraft as in Mercury's orbital range (0.31 0.47 AU). Probability density estimates obtained in this way allow us to quantitatively predict the likely range of the ion-sputtering source as a function of true anomaly angle of the planet. Results indicate that the sputtering source along open fieldlines increases fourfold from aphelion to perihelion, and that significant precipitation along closed fieldlines is twice as likely at perihelion due to finite Larmor radius effects. We conclude that ion sputtering is comparatively more important as a source for the Hermean exosphere at perihelion.

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