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Title:
Mercury-T: A new code to study tidally evolving multi-planet systems. Applications to Kepler-62
Authors:
Bolmont, Emeline; Raymond, Sean N.; Leconte, Jeremy; Hersant, Franck; Correia, Alexandre C. M.
Affiliation:
AA(Univ. Bordeaux, LAB, UMR 5804, 33270, Floirac, France; CNRS, LAB, UMR 5804, 33270, Floirac, France; Now at: NaXys, Department of Mathematics, University of Namur, 8 Rempart de la Vierge, 5000, Namur, Belgium ), AB(Univ. Bordeaux, LAB, UMR 5804, 33270, Floirac, France; CNRS, LAB, UMR 5804, 33270, Floirac, France), AC(Canadian Institute for Theoretical Astrophysics, 60st St George Street, University of Toronto, Toronto, ON, M5S3H8, Canada; Center for Planetary Sciences, Department of Physical & Environmental Sciences, University of Toronto Scarborough, Toronto, ON, M1C 1A4, Canada; ), AD(Univ. Bordeaux, LAB, UMR 5804, 33270, Floirac, France; CNRS, LAB, UMR 5804, 33270, Floirac, France), AE(CIDMA, Departamento de Física, Universidade de Aveiro, Campus de Santiago, 3810-193, Aveiro, Portugal; ASD, IMCCE-CNRS UMR 8028, Observatoire de Paris, UPMC, 77 Av. Denfert-Rochereau, 75014, Paris, France)
Publication:
Astronomy & Astrophysics, Volume 583, id.A116, 15 pp. (A&A Homepage)
Publication Date:
11/2015
Origin:
EDP Sciences
Astronomy Keywords:
planets and satellites: dynamical evolution and stability, planets and satellites: terrestrial planets, planets and satellites: individual: Kepler 62, planet-star interactions
DOI:
10.1051/0004-6361/201525909
Bibliographic Code:
2015A&A...583A.116B

Abstract

A large proportion of observed planetary systems contain several planets in a compact orbital configuration, and often harbor at least one close-in object. These systems are then most likely tidally evolving. We investigate how the effects of planet-planet interactions influence the tidal evolution of planets. We introduce for that purpose a new open-source addition to the MercuryN-body code, Mercury-T, which takes into account tides, general relativity and the effect of rotation-induced flattening in order to simulate the dynamical and tidal evolution of multi-planet systems. It uses a standard equilibrium tidal model, the constant time lag model. Besides, the evolution of the radius of several host bodies has been implemented (brown dwarfs, M-dwarfs of mass 0.1 M&sun;, Sun-like stars, Jupiter). We validate the new code by comparing its output for one-planet systems to the secular equations results. We find that this code does respect the conservation of total angular momentum. We applied this new tool to the planetary system Kepler-62. We find that tides influence the stability of the system in some cases. We also show that while the four inner planets of the systems are likely to have slow rotation rates and small obliquities, the fifth planet could have a fast rotation rate and a high obliquity. This means that the two habitable zone planets of this system, Kepler-62e ad f are likely to have very different climate features, and this of course would influence their potential at hosting surface liquid water.

The code is only available at the CDS via anonymous ftp to http://cdsarc.u-strasbg.fr (ftp://130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/583/A116

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