I. Hubený scite author profile

We calculate the theoretical evolution of the radii of all fourteen of the known transiting extrasolar giant planets (EGPs) for a variety of assumptions concerning atmospheric opacity, dense inner core masses, and possible internal power sources. We incorporate the effects of stellar irradiation and customize such effects for each EGP and star. Looking collectively at the family as a whole, we find that there are in fact two radius anomalies to be explained. Not only are the radii of a subset of the known transiting EGPs larger than expected from previous theory, but many of the other objects are smaller than the default theory would allow. We suggest that the larger EGPs can be explained by invoking enhanced atmospheric opacities that naturally retain internal heat. This explanation might obviate the necessity for an extra internal power source. We explain the smaller radii by the presence in perhaps all the known transiting EGPs of dense cores, such as have been inferred for Saturn and Jupiter. Importantly, we derive a rough correlation between the masses of our "best-fit" cores and the stellar metallicity that seems to buttress the core-accretion model of their formation. Though many caveats and uncertainties remain, the resulting comprehensive theory that incorporates enhanced-opacity atmospheres and dense cores is in reasonable accord with all the current structural data for the known transiting giant planets.Comment: 22 pages in emulateapj format, including 10 figures (mostly in color), accepted to the Astrophysical Journal (February 9, 2007); to appear in volume 661, June 200

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Erratum: “A Grid of Non‐LTE Line‐blanketed Model Atmospheres of O‐Type Stars” (ApJS, 146, 417 [2003]):

Lanz

Hubený

2003

ASTROPHYS J SUPPL S

408

615

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Quantitative Spectroscopy of O Stars at Low Metallicity: O Dwarfs in NGC 346

Bouret

Lanz

Hillier

et al. 2003

ApJ

291

497

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We present the results of a detailed analysis of the properties of dwarf O-type stars in a metal-poor environment. High-resolution, high-quality, ultraviolet and optical spectra of six O-type stars in the H II region NGC 346 have been obtained from a spectroscopic survey of O stars in the SMC. Stellar parameters and chemical abundances have been determined using NLTE line-blanketed photospheric models calculated with Tlusty. Additionally, we have modeled the spectra with the NLTE line-blanketed wind code, CMFGEN, to derive wind parameters. Stellar parameters and chemical abundances, and in particular iron abundances, obtained with the two NLTE codes compare quite favorably. This

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A Possible Bifurcation in Atmospheres of Strongly Irradiated Stars and Planets

Hubený

Burrows

Sudarsky

2003

ApJ

446

505

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We show that under certain circumstances the differences between the absorption mean and Planck mean opacities can lead to multiple solutions for an LTE atmospheric structure. Since the absorption and Planck mean opacities are not expected to differ significantly in the usual case of radiative equilibrium, non-irradiated atmospheres, the most interesting situations where the effect may play a role are strongly irradiated stars and planets, and also possibly structures where there is a significant deposition of mechanical energy, such as stellar chromospheres and accretion disks. We have presented an illustrative example of a strongly irradiated giant planet where the bifurcation effect is predicted to occur for a certain range of distances from the star.

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I. Hubený

Possible Solutions to the Radius Anomalies of Transiting Giant Planets

Erratum: “A Grid of Non‐LTE Line‐blanketed Model Atmospheres of O‐Type Stars” (ApJS, 146, 417 [2003]):

Quantitative Spectroscopy of O Stars at Low Metallicity: O Dwarfs in NGC 346

A Possible Bifurcation in Atmospheres of Strongly Irradiated Stars and Planets

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