Refining the Stellar Parameters of τ Ceti: a Pole-on Solar Analog Journal Article uri icon

Overview

abstract

  • Abstract; To accurately characterize the planets a star may be hosting, stellar parameters must first be well determined. τ Ceti is a nearby solar analog and often a target for exoplanet searches. Uncertainties in the observed rotational velocities have made constraining τ Ceti’s inclination difficult. For planet candidates from radial velocity (RV) observations, this leads to substantial uncertainties in the planetary masses, as only the minimum mass (; ; ; ; ; m; sin; i; ; ; ) can be constrained with RV. In this paper, we used new long-baseline optical interferometric data from the CHARA Array with the MIRC-X beam combiner and extreme precision spectroscopic data from the Lowell Discovery Telescope with EXPRES to improve constraints on the stellar parameters of τ Ceti. Additional archival data were obtained from a Tennessee State University Automatic Photometric Telescope and the Mount Wilson Observatory HK project. These new and archival data sets led to improved stellar parameter determinations, including a limb-darkened angular diameter of 2.019 ± 0.012 mas and rotation period of 46 ± 4 days. By combining parameters from our data sets, we obtained an estimate for the stellar inclination of 7° ± 7°. This nearly pole-on orientation has implications for the previously reported exoplanets. An analysis of the system dynamics suggests that the planetary architecture described by Feng et al. may not retain long-term stability for low orbital inclinations. Additionally, the inclination of τ Ceti reveals a misalignment between the inclinations of the stellar rotation axis and the previously measured debris disk rotation axis (i; disk = 35° ± 10°).

publication date

  • September 1, 2023

Date in CU Experts

  • June 17, 2026 1:45 AM

Full Author List

  • Korolik M; Roettenbacher RM; Fischer DA; Kane SR; Perkins JM; Monnier JD; Davies CL; Kraus S; Le Bouquin J-B; Anugu N

author count

  • 19

Other Profiles

International Standard Serial Number (ISSN)

  • 0004-6256

Electronic International Standard Serial Number (EISSN)

  • 1538-3881

Additional Document Info

start page

  • 123

end page

  • 123

volume

  • 166

issue

  • 3