Five Planets Transiting a Ninth Magnitude Star

Andrew Vanderburg; Juliette C. Becker; Martti H. Kristiansen; Allyson; Bieryla; Dmitry A. Duev; Rebecca Jensen-Clem; Timothy D. Morton; David W.; Latham; Fred C. Adams; Christoph Baranec; Perry Berlind; Michael L. Calkins,; Gilbert A. Esquerdo; Shrinivas Kulkarni; Nicholas M. Law; Reed Riddle; Maissa; Salama; Allan R. Schmitt

arXiv:1606.08441·astro-ph.EP·August 17, 2016

Five Planets Transiting a Ninth Magnitude Star

Andrew Vanderburg, Juliette C. Becker, Martti H. Kristiansen, Allyson, Bieryla, Dmitry A. Duev, Rebecca Jensen-Clem, Timothy D. Morton, David W., Latham, Fred C. Adams, Christoph Baranec, Perry Berlind, Michael L. Calkins,, Gilbert A. Esquerdo, Shrinivas Kulkarni

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TL;DR

This paper reports the discovery of a five-planet system transiting a bright star using K2 data, including detailed orbital and physical characteristics, and discusses its potential for future atmospheric and dynamical studies.

Contribution

First detailed characterization of a five-planet system around a bright star using K2 data, including orbital periods, sizes, and stability analysis.

Findings

01

Discovered five planets with diverse sizes and orbital periods.

02

Identified potential for future radial velocity and atmospheric studies.

03

Provided dynamical stability constraints for the system.

Abstract

The Kepler mission has revealed a great diversity of planetary systems and architectures, but most of the planets discovered by Kepler orbit faint stars. Using new data from the K2 mission, we present the discovery of a five planet system transiting a bright (V = 8.9, K = 7.7) star called HIP 41378. HIP 41378 is a slightly metal-poor late F-type star with moderate rotation (v sin(i) = 7 km/s) and lies at a distance of 116 +/- 18 from Earth. We find that HIP 41378 hosts two sub-Neptune sized planets orbiting 3.5% outside a 2:1 period commensurability in 15.6 and 31.7 day orbits. In addition, we detect three planets which each transit once during the 75 days spanned by K2 observations. One planet is Neptune sized in a likely ~160 day orbit, one is sub-Saturn sized likely in a ~130 day orbit, and one is a Jupiter sized planet in a likely ~1 year orbit. We show that these estimates for the…

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