The 3D Galactocentric Velocities of Kepler Stars: Marginalizing Over Missing Radial Velocities

Author:

Angus RuthORCID,Price-Whelan Adrian M.ORCID,Zinn Joel C.ORCID,Bedell MeganORCID,Lu Yuxi (Lucy)ORCID,Foreman-Mackey DanielORCID

Abstract

Abstract Precise Gaia measurements of positions, parallaxes, and proper motions provide an opportunity to calculate 3D positions and 2D velocities (i.e., 5D phase-space) of Milky Way stars. Where available, spectroscopic radial velocity (RV) measurements provide full 6D phase-space information, however there are now and will remain many stars without RV measurements. Without an RV it is not possible to directly calculate 3D stellar velocities; however, one can infer 3D stellar velocities by marginalizing over the missing RV dimension. In this paper, we infer the 3D velocities of stars in the Kepler field in Cartesian Galactocentric coordinates (v x , v y , v z ). We directly calculate velocities for around a quarter of all Kepler targets, using RV measurements available from the Gaia, LAMOST, and APOGEE spectroscopic surveys. Using the velocity distributions of these stars as our prior, we infer velocities for the remaining three quarters of the sample by marginalizing over the RV dimension. The median uncertainties on our inferred v x , v y , and v z velocities are around 4, 18, and 4 km s−1, respectively. We provide 3D velocities for a total of 148,590 stars in the Kepler field. These 3D velocities could enable kinematic age-dating, Milky Way stellar population studies, and other scientific studies using the benchmark sample of well-studied Kepler stars. Although the methodology used here is broadly applicable to targets across the sky, our prior is specifically constructed from and for the Kepler field. Care should be taken to use a suitable prior when extending this method to other parts of the Galaxy.

Funder

NASA ADAP

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Astronomy and Astrophysics

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