Jun 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007natur.447..691h&link_type=abstract
Nature, Volume 447, Issue 7145, pp. 691-693 (2007).
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84
Scientific paper
Of the over 200 known extrasolar planets, just 14 pass in front of and behind their parent stars as seen from Earth. This fortuitous geometry allows direct determination of many planetary properties. Previous reports of planetary thermal emission give fluxes that are roughly consistent with predictions based on thermal equilibrium with the planets' received radiation, assuming a Bond albedo of ~0.3. Here we report direct detection of thermal emission from the smallest known transiting planet, HD149026b, that indicates a brightness temperature (an expression of flux) of 2,300+/-200K at 8µm. The planet's predicted temperature for uniform, spherical, blackbody emission and zero albedo (unprecedented for planets) is 1,741K. As models with non-zero albedo are cooler, this essentially eliminates uniform blackbody models, and may also require an albedo lower than any measured for a planet, very strong 8µm emission, strong temporal variability, or a heat source other than stellar radiation. On the other hand, an instantaneous re-emission blackbody model, in which each patch of surface area instantly re-emits all received light, matches the data. This planet is known to be enriched in heavy elements, which may give rise to novel atmospheric properties yet to be investigated.
Deming Drake
Harrington Joseph
Luszcz Statia
Richardson Lee Jeremy
Seager Sara
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