2011A&A...528A..27H


Query : 2011A&A...528A..27H

2011A&A...528A..27H - Astronomy and Astrophysics, volume 528A, 27-27 (2011/4-1)

Tidal obliquity evolution of potentially habitable planets.

HELLER R., LECONTE J. and BARNES R.

Abstract (from CDS):

Stellar insolation has been used as the main constraint on a planet's potential habitability. However, as more Earth-like planets are discovered around low-mass stars (LMSs), a re-examination of the role of tides on the habitability of exoplanets has begun. Those studies have yet to consider the misalignment between a planet's rotational axis and the orbital plane normal, i.e. the planetary obliquity. This paper considers the constraints on habitability arising from tidal processes due to the planet's spin orientation and rate. Since tidal processes are far from being understood we seek to understand differences between commonly used tidal models. We apply two equilibrium tide theories - a constant-phase-lag model and a constant-time-lag model - to compute the obliquity evolution of terrestrial planets orbiting in the habitable zones around LMSs. The time for the obliquity to decrease from an Earth-like obliquity of 23.5° to 5°, the ``tilt erosion time'', is compared to the traditional insolation habitable zone (IHZ) in the parameter space spanned by the semi-major axis a, the eccentricity e, and the stellar mass Ms. We also compute tidal heating and equilibrium rotation caused by obliquity tides as further constraints on habitability. The Super-Earth Gl581d and the planet candidate Gl581g are studied as examples for these tidal processes. Earth-like obliquities of terrestrial planets in the IHZ around stars with masses ≲0.25M are eroded in less than 0.1Gyr. Only terrestrial planets orbiting stars with masses >0.9M experience tilt erosion times larger than 1Gyr throughout the IHZ. Tilt erosion times for terrestrial planets in highly eccentric orbits inside the IHZ of solar-like stars can be ≲10Gyr. Terrestrial planets in the IHZ of stars with masses ≲0.25M undergo significant tidal heating due to obliquity tides, whereas in the IHZ of stars with masses >0.5M they require additional sources of heat to drive tectonic activity. The predictions of the two tidal models diverge significantly for e>0.3. In our two-body simulations, Gl581d's obliquity is eroded to 0° and its rotation period reached its equilibrium state of half its orbital period in <0.1Gyr. Tidal surface heating on the putative Gl581g is ≲150mW/m2 as long as its eccentricity is smaller than 0.3. Obliquity tides modify the concept of the habitable zone. Tilt erosion of terrestrial planets orbiting LMSs should be included by atmospheric modelers. Tidal heating needs to be considered by geologists.

Abstract Copyright:

Journal keyword(s): planets and satellites: dynamical evolution and stability - celestial mechanics - planet-star interactions - astrobiology - stars: low-mass - planets and satellites: tectonics

Simbad objects: 4

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Number of rows : 4
N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2022
#notes
1 * ups And d Pl 01 36 47.84216 +41 24 19.6443           ~ 156 1
2 * ups And c Pl 01 36 47.84216 +41 24 19.6443           ~ 150 1
3 BD-07 4003 BY* 15 19 26.8269387505 -07 43 20.189497466 13.403 11.76 10.560 9.461 8.911 M3V 593 2
4 BD-07 4003d Pl 15 19 26.8271336166 -07 43 20.190958776           ~ 145 1

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2022.08.13-01:23:33

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