Query : 2010A&A...523A..26N

2010A&A...523A..26N - Astronomy and Astrophysics, volume 523, A26-26 (2010/11-2)

Interior structure models of GJ 436b.


Abstract (from CDS):

GJ 436b is the first extrasolar planet discovered that resembles Neptune in mass and radius. Two more are known (HAT-P-11b and Kepler-4b), and many more are expected to be found in the upcoming years. The particularly interesting property of Neptune-sized planets is that their mass Mp and radius Rp are close to theoretical M-R relations of water planets. Given Mp, Rp, and equilibrium temperature, however, various internal compositions are possible. A broad set of interior structure models is presented here that illustrates the dependence of internal composition and possible phases of water occurring in presumably water-rich planets, such as GJ 436b on the uncertainty in atmospheric temperature profile and mean density. We show how the set of solutions can be narrowed down if theoretical constraints from formation and model atmospheres are applied or potentially observational constraints for the atmospheric metallicity Z1 and the tidal Love number k2. We model the interior by assuming either three layers (hydrogen-helium envelope, water layer, rock core) or two layers (H/He/H2O envelope, rocky core). For water, we use the equation of state H2O-REOS based on finite temperature - density functional theory - molecular dynamics (FT-DFT-MD) simulations. Some admixture of H/He appears mandatory for explaining the measured radius. For the warmest considered models, the H/He mass fraction can reduce to 10–3, still extending over ∼0.7R. If water occurs, it will be essentially in the plasma phase or in the superionic phase, but not in an ice phase. Metal-free envelope models have 0.02<k2<0.2, and the core mass cannot be determined from a measurement of k2. In contrast, models with 0.3<k2<0.82 require high metallicities Z1<0.89 in the outer envelope. The uncertainty in core mass decreases to 0.4Mp, if k2≥0.3, and further to 0.2Mp, if k2≥0.5, and core mass and Z1 become sensitive functions of k2. To further narrow the set of solutions, a proper treatment of the atmosphere and the evolution is necessary. We encourage efforts to observationally determine the atmospheric metallicity and the Love number k2.

Abstract Copyright:

Journal keyword(s): planets and satellites: interiors - planetary systems - planets and satellites: individual: GJ 436b

Simbad objects: 6

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Number of rows : 6
N Identifier Otype ICRS (J2000)
ICRS (J2000)
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2023
1 CoRoT-7b Pl 06 43 49.4690410679 -01 03 46.825797768           ~ 395 1
2 HAT-P-13b Pl 08 39 31.8073600797 +47 21 07.275628863           ~ 108 1
3 Ross 905 PM* 11 42 11.0933350978 +26 42 23.650782778   12.06 10.613 10.272 8.24 M3V 619 1
4 Ross 905b Pl 11 42 11.0933874353 +26 42 23.658083337           ~ 779 1
5 NAME G 139-21b Pl 17 15 18.9337265994 +04 57 50.064695682           ~ 686 1
6 BD+47 2936b Pl 19 50 50.2474562793 +48 04 51.097364378           ~ 401 1

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