Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 729, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/729/1/L7
Keywords
planetary systems; planets and satellites: general
Categories
Funding
- NASA [NNX08AY38A, NNX07AP17G]
- NASA/Spitzer/JPL [1368434]
- NASA [92759, NNX08AY38A] Funding Source: Federal RePORTER
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We present a systematic evaluation of the agreement between the observed radii of 90 well-characterized transiting extrasolar giant planets and their corresponding model radii. Our model radii are drawn from previously published calculations of coreless giant planets that have attained their asymptotic radii, and which have been tabulated for a range of planet masses and equilibrium temperatures. ( We report a two-dimensional polynomial fitting function that accurately represents the models.) As expected, the model radii provide a statistically significant improvement over a null hypothesis that the sizes of giant planets are completely independent of mass and effective temperature. As is well known, however, fiducial models provide an insufficient explanation; the planetary radius anomalies, R equivalent to R-obs-R-pred, are strongly correlated with planetary equilibrium temperature. We find that the radius anomalies have a best-fit dependence, R alpha T-eff(alpha), with alpha = 1.4 +/- 0.6. Incorporating this relation into the model radii leads to substantially less scatter in the radius correlation. The extra temperature dependence represents an important constraint on theoretical models for hot Jupiters. Using simple scaling arguments, we find support for the hypothesis of Batygin & Stevenson that this correlation can be attributed to a planetary heating mechanism that is mediated by magnetohydrodynamic coupling between the planetary magnetic field and near-surface flow that is accompanied by ohmic dissipation at adiabatic depth. Additionally, we find that the temperature dependence is likely too strong to admit kinetic heating as the primary source of anomalous energy generation within the majority of the observed transiting planets.
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