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Orbital eccentricity driven temperature variation at Mercury's poles
Author(s) -
Siegler Matthew A.,
Bills Bruce G.,
Paige D.A.
Publication year - 2013
Publication title -
journal of geophysical research: planets
Language(s) - English
Resource type - Journals
eISSN - 2169-9100
pISSN - 2169-9097
DOI - 10.1002/jgre.20070
Subject(s) - eccentricity (behavior) , polar , mercury (programming language) , amplitude , geology , orbital eccentricity , thermal , atmospheric sciences , physics , geodesy , astrophysics , meteorology , astronomy , optics , political science , computer science , law , programming language , stars
Due to Mercury's extremely small obliquity, variations in orbital eccentricity are likely to have been the dominant cause of changes in polar temperatures on Mercury throughout the bulk of its history. In the last 10 Myr, the eccentricity has varied between 0.1 and 0.3. Over the past 100 Myr, eccentricity extremes of nearly zero to greater than 0.4 have likely been reached. We calculate the temperature in the near‐polar region (within 10° of the North Pole) as it varies in response to past eccentricities. These calculations show periods with dramatically different temperatures, diurnal amplitudes, and long period thermal cycles—all of which can have a dramatic effect on longitudinal variations in long‐term subsurface ice stability. Given forthcoming topographic data, thermal models including long‐term eccentricity can help constrain when past ice might have been delivered to Mercury.