KIC 4739791: A New R CMa-type Eclipsing Binary with a Pulsating Component
Abstract
The {\it Kepler} light curve of KIC 4739791 exhibits partial eclipses, inverse O'Connell effect, and multiperiodic pulsations. Including a starspot on either of the binary components, the light-curve synthesis indicates that KIC 4739791 is in detached or semi-detached configurations with both a short orbital period and a low mass ratio. Multiple frequency analyses were performed in the light residuals after subtracting the binarity effects from the original {\it Kepler} data. We detected 14 frequencies: six in the low-frequency region (0.12.3 d) and eight in the high-frequency region (18.222.0 d). Among these, six high frequencies with amplitudes of 0.621.97 mmag were almost constant over time for 200 d. Their pulsation periods and pulsation constants are in the ranges of 0.0480.054 d and 0.0250.031 d, respectively. In contrast, the other frequencies may arise from the alias effects caused by the orbital frequency or combination frequencies. We propose that KIC 4739791 is a short-period R CMa binary with the lowest mass ratio in the known classical Algols and that its primary component is a Sct pulsating star. Only four R CMa stars have been identified, three of which exhibit Sct-type oscillations. These findings make KIC 4739791 an attractive target for studies of stellar interior structure and evolution.
Cite
@article{arxiv.1511.03764,
title = {KIC 4739791: A New R CMa-type Eclipsing Binary with a Pulsating Component},
author = {Jae Woo Lee and Seung-Lee Kim and Kyeongsoo Hong and Jae-Rim Koo and Chung-Uk Lee and Jae-Hyuck Youn},
journal= {arXiv preprint arXiv:1511.03764},
year = {2016}
}
Comments
17 pages, including 6 figures and 2 tables, accepted for publication in AJ