2012ApJ...761...59L -
Astrophys. J., 761, 59 (2012/December-2)
How thermal evolution and mass-loss sculpt populations of super-earths and sub-neptunes: application to the Kepler-11 system and beyond.
LOPEZ E.D., FORTNEY J.J. and MILLER N.
Abstract (from CDS):
We use models of thermal evolution and extreme ultraviolet (XUV) driven mass loss to explore the composition and history of low-mass, low-density transiting planets. We investigate the Kepler-11 system in detail and provide estimates of both the current and past planetary compositions. We find that an H/He envelope on Kepler-11b is highly vulnerable to mass loss. By comparing to formation models, we show that in situ formation of the system is extremely difficult. Instead we propose that it is a water-rich system of sub-Neptunes that migrated from beyond the snow line. For the broader population of observed planets, we show that there is a threshold in bulk planet density and incident flux above which no low-mass transiting planets have been observed. We suggest that this threshold is due to the instability of H/He envelopes to XUV-driven mass loss. Importantly, we find that this mass-loss threshold is well reproduced by our thermal evolution/contraction models that incorporate a standard mass-loss prescription. Treating the planets' contraction history is essential because the planets have significantly larger radii during the early era of high XUV fluxes. Over time low-mass planets with H/He envelopes can be transformed into water-dominated worlds with steam envelopes or rocky super-Earths. Finally, we use this threshold to provide likely minimum masses and radial-velocity amplitudes for the general population of Kepler candidates. Likewise, we use this threshold to provide constraints on the maximum radii of low-mass planets found by radial-velocity surveys.
Abstract Copyright:
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Journal keyword(s):
planetary systems - planets and satellites: composition - planets and satellites: formation - planets and satellites: interiors - planets and satellites: physical evolution - stars: individual: Kepler-11
CDS comments:
KOI candidates in table 4 are not in SIMBAD.
Simbad objects:
21
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