Bibcode
Gómez-Leal, I.; Pallé, E.; Selsis, F.
Bibliographical reference
The Astrophysical Journal, Volume 752, Issue 1, article id. 28 (2012).
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6
2012
Journal
Citations
20
Refereed citations
19
Description
Here we present an analysis of the global-integrated mid-infrared
emission flux of the Earth based on data derived from satellite
measurements. We have studied the photometric annual, seasonal, and
rotational variability of the thermal emission of the Earth to determine
which properties can be inferred from the point-like signal. We find
that the analysis of the time series allows us to determine the 24 hr
rotational period of the planet for most observing geometries, due to
large warm and cold areas, identified with geographic features, which
appear consecutively in the observer's planetary view. However, the
effects of global-scale meteorology can effectively mask the rotation
for several days at a time. We also find that orbital time series
exhibit a seasonal modulation, whose amplitude depends strongly on the
latitude of the observer but weakly on its ecliptic longitude. As no
systematic difference of brightness temperature is found between the
dayside and the nightside, the phase variations of the Earth in the
infrared range are negligible. Finally, we also conclude that the phase
variation of a spatially unresolved Earth-Moon system is dominated by
the lunar signal.