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Kepler-503b: An Object at the Hydrogen Burning Mass Limit Orbiting a Subgiant Star

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arxiv 1805.08820 v2 pith:R3ACO6MT submitted 2018-05-22 astro-ph.SR astro-ph.EP

Kepler-503b: An Object at the Hydrogen Burning Mass Limit Orbiting a Subgiant Star

classification astro-ph.SR astro-ph.EP
keywords massstarkepler-503bplanetradialsystemapogeeburning
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Using spectroscopic radial velocities with the APOGEE instrument and Gaia distance estimates, we demonstrate that Kepler-503b, currently considered a validated Kepler planet, is in fact a brown-dwarf/low-mass star in a nearly circular 7.2-day orbit around a subgiant star. Using a mass estimate for the primary star derived from stellar models, we derive a companion mass and radius of $0.075\pm0.003 \ M_{\odot}$ ($78.6\pm3.1 \ M_{Jup}$) and $0.099^{+0.006}_{-0.004}\ R_{\odot}$ ($0.96^{+0.06}_{-0.04}\ R_{Jup}$), respectively. Assuming the system is coeval, the evolutionary state of the primary indicates the age is $\sim6.7$ Gyr. Kepler-503b sits right at the hydrogen burning mass limit, straddling the boundary between brown dwarfs and very low-mass stars. More precise radial velocities and secondary eclipse spectroscopy with James Webb Space Telescope will provide improved measurements of the physical parameters and age of this important system to better constrain and understand the physics of these objects and their spectra. This system emphasizes the value of radial velocity observations to distinguish a genuine planet from astrophysical false positives, and is the first result from the SDSS-IV monitoring of Kepler planet candidates with the multi-object APOGEE instrument.

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  1. TOI-7154b: A Close-in Massive Brown Dwarf in an Eccentric Orbit

    astro-ph.EP 2026-05 unverdicted novelty 4.0

    TOI-7154b is a 71.7 M_J brown dwarf in an 8.86-day eccentric orbit around a G star, with eccentricity and age suggesting stellar-like fragmentation origins.