Physical Parameters of the Multi-Planet Systems HD 106315 and GJ 9827

Molly R. Kosiarek; David A. Berardo; Ian J.M. Crossfield; Cesar; Laguna; Caroline Piaulet; Joseph M. Akana Murphy; Steve B. Howell; Gregory W.; Henry; Howard Isaacson; Benjamin Fulton; Lauren M. Weiss; Erik A. Petigura,; Aida Behmard; Lea A. Hirsch; Johanna Teske; Jennifer A. Burt; Sean M. Mills,; Ashley Chontos; Teo Mocnik; Andrew W. Howard; Michael Werner; John H.; Livingston; Jessica Krick; Charles Beichman; Varoujan Gorjian; Laura; Kreidberg; Caroline Morley; Jessie L. Christiansen; Farisa Y. Morales,; Nicholas J. Scott; Jeffrey D. Crane; Sharon Xuesong Wang; Stephen A.; Shectman; Lee J. Rosenthal; Samuel K. Grunblatt; Ryan A. Rubenzahl; Paul A.; Dalba; Steven Giacalone; Chiara Dane Villanueva; Qingtian Liu; Fei Dai,; Michelle L. Hill; Malena Rice; Stephen R. Kane; Andrew W. Mayo

arXiv:2009.03398·astro-ph.EP·January 6, 2021

Physical Parameters of the Multi-Planet Systems HD 106315 and GJ 9827

Molly R. Kosiarek, David A. Berardo, Ian J.M. Crossfield, Cesar, Laguna, Caroline Piaulet, Joseph M. Akana Murphy, Steve B. Howell, Gregory W., Henry, Howard Isaacson, Benjamin Fulton, Lauren M. Weiss, Erik A. Petigura,, Aida Behmard, Lea A. Hirsch, Johanna Teske

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TL;DR

This study refines the orbital and mass parameters of planets around HD 106315 and GJ 9827, enabling better atmospheric characterization and analyzing their compositions through combined radial velocity and transit data.

Contribution

It provides improved mass measurements and activity modeling for these multi-planet systems, and assesses their compositions with interior models, advancing understanding of super-Earth and sub-Neptune planets.

Findings

01

GJ 9827 planets are Earth-like rocky, with some having volatile atmospheres.

02

HD 106315 planets likely contain water or hydrogen/helium atmospheres.

03

Stellar activity modeling varies in effectiveness depending on star type.

Abstract

HD 106315 and GJ 9827 are two bright, nearby stars that host multiple super-Earths and sub-Neptunes discovered by K2 that are well suited for atmospheric characterization. We refined the planets' ephemerides through Spitzer transits, enabling accurate transit prediction required for future atmospheric characterization through transmission spectroscopy. Through a multi-year high-cadence observing campaign with Keck/HIRES and Magellan/PFS, we improved the planets' mass measurements in anticipation of HST transmission spectroscopy. For GJ 9827, we modeled activity-induced radial velocity signals with a Gaussian process informed from the Calcium II H&K lines in order to more accurately model the effect of stellar noise on our data. We found planet masses of M $_{b}$ = $4.87 \pm 0.37$ M $_{\oplus}$ , M $_{c}$ = $1.92 \pm 0.49$ M $_{\oplus}$ , and M $_{d}$ = $3.42 \pm 0.62$ M $_{\oplus}$ . For HD 106315, we found that…

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