Temporal variation of the tropospheric cloud and haze in the jovian equatorial zone |
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| Authors: | Patrick S Lii Michael H Wong Imke de Pater |
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| Institution: | a Department of Astronomy, University of California, Berkeley, CA 94720, United States
b Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218, United States |
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| Abstract: | We analyze the temporal variation of the tropospheric cloud and haze in the jovian equatorial zone. In order to investigate the time evolution of the haze, we utilize a comprehensive set of archival WFPC2 images in the 953 and 893-nm wavelengths spanning over a decade of HST observations of Jupiter. We find that the latitude of the peak haze reflectivity experienced a southerly shift in between late-1998 and early-2001 (not to be confused with southerly bulk transport of haze particles themselves); before this shift, the latitude of peak reflectivity had remained relatively stable at +7° (planetographic latitude). We examine the average haze reflectivity at three equatorial latitudes (−5°, 0°, +5°) and find variability of amplitude ±20%. Equatorial clouds, which lie deeper than the haze, showed zonal mean variability with an amplitude of about 5% except during the global upheaval of 2006-2007 in which cloud reflectivity dropped up to 16% depending on latitude. An analysis of temporal correlation between zonally averaged cloud reflectivity and zonally averaged haze reflectivity indicates a time-lag of about 1200 days (with a lower limit of 800 days) between changes in cloud reflectivity and later changes in haze reflectivity, but limitations in the temporal coverage of even this extensive dataset make it impossible to rule out even longer time-lags. |
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| Keywords: | Jupiter Atmosphere Jupiter Hubble Space Telescope observations Atmospheres Dynamics |
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