Discovery and Dynamics of the Nontransiting Planet Kepler-139f

Caleb Lammers; Joshua N. Winn

doi:10.3847/2041-8213/adce01

Discovery and Dynamics of the Nontransiting Planet Kepler-139f

Caleb Lammers, Joshua N. Winn

Astrophysical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Among the ways that an outer giant planet can alter the architecture of an inner planetary system is by tilting the orbits of the inner planets and reducing their mutual transit probabilities. Here, we report on an example of this phenomenon: we show that the Kepler-139 system contains a nontransiting planet just exterior to three transiting planets and interior to a giant planet. This newly discovered planet, Kepler-139f, has an orbital period of 355 ± 2 days and a mass of 36 ± 10 M_⊕ based on transit-timing and radial-velocity data. Through dynamical simulations, we show that gravitational perturbations on planet f’s orbit from the outer giant planet reduce the probability for a randomly located observer to see transits of all four inner planets. Thus, Kepler-139 illustrates the role that outer giant planets can play in the apparent truncation of compact systems of multiple transiting planets.

Original language	English (US)
Article number	L39
Journal	Astrophysical Journal Letters
Volume	984
Issue number	2
DOIs	https://doi.org/10.3847/2041-8213/adce01
State	Published - May 10 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/adce01

Cite this

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title = "Discovery and Dynamics of the Nontransiting Planet Kepler-139f",

abstract = "Among the ways that an outer giant planet can alter the architecture of an inner planetary system is by tilting the orbits of the inner planets and reducing their mutual transit probabilities. Here, we report on an example of this phenomenon: we show that the Kepler-139 system contains a nontransiting planet just exterior to three transiting planets and interior to a giant planet. This newly discovered planet, Kepler-139f, has an orbital period of 355 ± 2 days and a mass of 36 ± 10 M⊕ based on transit-timing and radial-velocity data. Through dynamical simulations, we show that gravitational perturbations on planet f{\textquoteright}s orbit from the outer giant planet reduce the probability for a randomly located observer to see transits of all four inner planets. Thus, Kepler-139 illustrates the role that outer giant planets can play in the apparent truncation of compact systems of multiple transiting planets.",

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Discovery and Dynamics of the Nontransiting Planet Kepler-139f

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