No circumbinary planets transiting the tightest Kepler binaries – a possible fingerprint of a third star

The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer than the typical eclipsing binary period found by Kepler, and hence there is a dearth of planets around the closest binaries. In this paper, w...

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Published in	Monthly notices of the Royal Astronomical Society Vol. 453; no. 4; pp. 3554 - 3567
Main Authors	Martin, David V., Mazeh, Tsevi, Fabrycky, Daniel C.
Format	Journal Article
Language	English
Published	London Oxford University Press 11.11.2015
Subjects	Binary stars Double stars Dynamical systems Dynamics Eclipsing binary stars Extrasolar planets Geometry Kepler mission (NASA) Observatories Orbits Planets Spacecraft Stars binaries: close binaries: eclipsing celestial mechanics methods: numerical planets and satellites: detection planets and satellites: dynamical evolution and stability
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Abstract	The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer than the typical eclipsing binary period found by Kepler, and hence there is a dearth of planets around the closest binaries. In this paper, we suggest how this dearth may be explained by the presence of a distant stellar tertiary companion, which shrunk the inner binary orbit by the process of Kozai cycles and tidal friction, a mechanism that has been implicated for producing most binaries with periods below 7 d. We show that the geometry and orbital dynamics of these evolving triple star systems are highly restrictive for a circumbinary planet, which is subject itself to Kozai modulation, on one hand, and can shield the two inner stars from their Kozai cycle and subsequent shrinking, on the other hand. Only small planets on wide and inclined orbits may form, survive and allow for the inner binary shrinkage. Those are difficult to detect.
AbstractList	The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer than the typical eclipsing binary period found by Kepler, and hence there is a dearth of planets around the closest binaries. In this paper, we suggest how this dearth may be explained by the presence of a distant stellar tertiary companion, which shrunk the inner binary orbit by the process of Kozai cycles and tidal friction, a mechanism that has been implicated for producing most binaries with periods below 7 d. We show that the geometry and orbital dynamics of these evolving triple star systems are highly restrictive for a circumbinary planet, which is subject itself to Kozai modulation, on one hand, and can shield the two inner stars from their Kozai cycle and subsequent shrinking, on the other hand. Only small planets on wide and inclined orbits may form, survive and allow for the inner binary shrinkage. Those are difficult to detect. The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer than the typical eclipsing binary period found by Kepler, and hence there is a dearth of planets around the closest binaries. In this paper, we suggest how this dearth may be explained by the presence of a distant stellar tertiary companion, which shrunk the inner binary orbit by the process of Kozai cycles and tidal friction, a mechanism that has been implicated for producing most binaries with periods below 7 d. We show that the geometry and orbital dynamics of these evolving triple star systems are highly restrictive for a circumbinary planet, which is subject itself to Kozai modulation, on one hand, and can shield the two inner stars from their Kozai cycle and subsequent shrinking, on the other hand. Only small planets on wide and inclined orbits may form, survive and allow for the inner binary shrinkage. Those are difficult to detect.
Author	Fabrycky, Daniel C. Martin, David V. Mazeh, Tsevi
Author_xml	– sequence: 1 givenname: David V. surname: Martin fullname: Martin, David V. email: david.martin@unige.ch organization: 1Observatoire de Genève, Université de Genève, 51 chemin des Maillettes, CH-1290 Sauverny, Switzerland – sequence: 2 givenname: Tsevi surname: Mazeh fullname: Mazeh, Tsevi organization: 1Observatoire de Genève, Université de Genève, 51 chemin des Maillettes, CH-1290 Sauverny, Switzerland – sequence: 3 givenname: Daniel C. surname: Fabrycky fullname: Fabrycky, Daniel C. organization: 1Observatoire de Genève, Université de Genève, 51 chemin des Maillettes, CH-1290 Sauverny, Switzerland
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Copyright	2015 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society 2015 Copyright Oxford University Press, UK Nov 11, 2015
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Snippet	The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer... The Kepler mission has yielded the discovery of eight circumbinary systems, all found around eclipsing binaries with periods greater than 7 d. This is longer...
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SubjectTerms	Binary stars Double stars Dynamical systems Dynamics Eclipsing binary stars Extrasolar planets Geometry Kepler mission (NASA) Observatories Orbits Planets Spacecraft Stars
Title	No circumbinary planets transiting the tightest Kepler binaries – a possible fingerprint of a third star
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