The hot-Jupiter Kepler-17b: discovery, obliquity from stroboscopic   starspots, and atmospheric characterization

Jean-Michel D\'esert; David Charbonneau; Brice-Olivier Demory; Sarah; Ballard; Joshua A. Carter; Jonathan J. Fortney; William D. Cochran; Michael; Endl; Samuel N. Quinn; Howard T. Isaacson; Francois Fressin; Lars A.; Buchhave; David W. Latham; Heather A. Knutson; Stephen T. Bryson; Guillermo; Torres; Jason F. Rowe; Natalie M. Batalha; William J. Borucki; Timothy M.; Brown; Douglas A. Caldwell; Jessie L. Christiansen; Drake Deming; Daniel C.; Fabrycky; Eric B. Ford; Ronald L. Gilliland; Micha\"el Gillon; Micha\"el R.; Haas; Jon M. Jenkins; Karen Kinemuchi; David Koch; Jack J. Lissauer; Fergal; Mullally; Phillip J. MacQueen; Geoffrey W. Marcy; Dimitar D. Sasselov; Sara; Seager; Martin Still; Peter Tenenbaum; Kamal Uddin; Joshua N. Winn

arXiv:1107.5750·astro-ph.EP·May 30, 2015

The hot-Jupiter Kepler-17b: discovery, obliquity from stroboscopic starspots, and atmospheric characterization

Jean-Michel D\'esert, David Charbonneau, Brice-Olivier Demory, Sarah, Ballard, Joshua A. Carter, Jonathan J. Fortney, William D. Cochran, Michael, Endl, Samuel N. Quinn, Howard T. Isaacson, Francois Fressin, Lars A., Buchhave, David W. Latham, Heather A. Knutson

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TL;DR

This paper reports the discovery and detailed characterization of the hot Jupiter Kepler-17b, including its orbit, mass, radius, atmospheric properties, and the star's obliquity, using Kepler and Spitzer data combined with spectroscopic measurements.

Contribution

It provides the first comprehensive analysis of Kepler-17b's physical and atmospheric properties, including obliquity and atmospheric temperature, using combined photometric, spectroscopic, and infrared observations.

Findings

01

Kepler-17b has a 1.486-day orbit with a mass of 2.45 M_jup and radius of 1.31 R_jup.

02

The star's obliquity is less than 15 degrees, indicating a prograde orbit.

03

The planet's brightness temperatures are approximately 1800 K, with a low optical albedo of 0.10.

Abstract

This paper reports the discovery and characterization of the transiting hot giant exoplanet Kepler-17b. The planet has an orbital period of 1.486 days, and radial velocity measurements from the Hobby-Eberly Telescope (HET) show a Doppler signal of 420+/-15 m.s-1. From a transit-based estimate of the host star's mean density, combined with an estimate of the stellar effective temperature T_eff=5630+/-100 K from high-resolution spectra, we infer a stellar host mass of 1.061+/-0.067 M_sun and a stellar radius of 1.019+/-0.033 R_jup. We estimate the planet mass and radius to be Mp=2.450+/-0.114 M_jup and Rp=1.312+/-0.018 R_jup and a planet density near 1.35 g.cm-3. The host star is active, with dark spots that are frequently occulted by the planet. The continuous monitoring of the star reveals a stellar rotation period of 11.89 days, 8 times the the planet's orbital period; this period…

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