Planet Hunters: A Transiting Circumbinary Planet in a Quadruple Star   System

Megan E. Schwamb; Jerome A. Orosz; Joshua A. Carter; William F. Welsh,; Debra A. Fischer; Guillermo Torres; Andrew W. Howard; Justin R. Crepp,; William C. Keel; Chris J. Lintott; Nathan A. Kaib; Dirk Terrell; Robert; Gagliano; Kian J. Jek; Michael Parrish; Arfon M. Smith; Stuart Lynn; Robert; J. Simpson; Matthew J. Giguere; and Kevin Schawinski

arXiv:1210.3612·astro-ph.EP·June 11, 2015

Planet Hunters: A Transiting Circumbinary Planet in a Quadruple Star System

Megan E. Schwamb, Jerome A. Orosz, Joshua A. Carter, William F. Welsh,, Debra A. Fischer, Guillermo Torres, Andrew W. Howard, Justin R. Crepp,, William C. Keel, Chris J. Lintott, Nathan A. Kaib, Dirk Terrell, Robert, Gagliano, Kian J. Jek, Michael Parrish, Arfon M. Smith

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TL;DR

This paper reports the discovery of a transiting circumbinary planet in a quadruple star system using Kepler data, confirmed through photometric-dynamical modeling and citizen science contributions.

Contribution

First detection of a transiting planet in a quadruple star system, combining citizen science, Kepler data, and photometric-dynamical modeling techniques.

Findings

01

Planet PH1b is approximately 6.2 Earth radii in size.

02

The planet orbits outside a 20-day binary star system.

03

The system includes a previously unknown visual binary at ~1000 AU.

Abstract

We report the discovery and confirmation of a transiting circumbinary planet (PH1b) around KIC 4862625, an eclipsing binary in the Kepler field. The planet was discovered by volunteers searching the first six Quarters of publicly available Kepler data as part of the Planet Hunters citizen science project. Transits of the planet across the larger and brighter of the eclipsing stars are detectable by visual inspection every ~137 days, with seven transits identified in Quarters 1-11. The physical and orbital parameters of both the host stars and planet were obtained via a photometric-dynamical model, simultaneously fitting both the measured radial velocities and the Kepler light curve of KIC 4862625. The 6.18 +/- 0.17 Earth radii planet orbits outside the 20-day orbit of an eclipsing binary consisting of an F dwarf (1.734 +/- 0.044 Solar radii, 1.528 +/- 0.087 Solar masses) and M dwarf…

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