On the Size Distribution of Close-In Extrasolar Giant Planets

Details On the Size Distribution of Close-In Extrasolar Giant Planets On the Size Distribution of Close-In Extrasolar Giant Planets

2005-04-05

arxiv.org/abs/astro-ph/0504123v3

Astrophys.J. 628 (2005) L73-L76

Astronomy and Astrophysics

Astrophysics

5 pages, 2 figures. Accepted to ApJL. Updated relative to final ApJL version to include revised radius of OGLE-TR-10 from Holm

Scientific paper

10.1086/432573

The precisions of extrasolar planet radius measurements are reaching the point at which meaningful and discriminatory comparisons with theoretical predictions are can be made. However, care must be taken to account for selection effects in the transit surveys that detect the transiting planets for which radius measurements are possible. Here I identify one such selection effect, such that the number of planets with radius R_p detected in a signal-to-noise ratio limited transit survey is proportional to R_p^alpha, with alpha~4-6. In the presence of a dispersion sigma in the intrinsic distribution of planet radii, this selection effect translates to bias b in the radii of observed planets. Detected planets are, on average, larger by a fractional amount b ~ alpha (sigma/)^2 relative to the mean radius of the underlying distribution. I argue that the intrinsic dispersion in planetary radii is likely to be in the range sigma = (0.05-0.13)R_J, where the lower bound is that expected theoretically solely from the variance in stellar insolation, and the upper bound is the 95% c.l. upper limit from the scatter in observed radii. Assuming an arbitrary but plausible value of sigma/~10%, and thus b~6%, I infer a mean intrinsic radius of close-in massive extrasolar planets of =(1.03+/-0.01)R_J. This value reinforces the case for HD209458b having an anomalously large radius, and may be inconsistent with coreless models of irradiated giant planets.

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