V456 Cyg: An eclipsing binary with tidally perturbed g-mode pulsations

TL;DR

This paper studies the binary star V456 Cyg, revealing tidally perturbed g-mode pulsations in the secondary star, and demonstrates how tides influence stellar pulsations, opening new avenues for asteroseismology.

Contribution

It is the first detailed analysis of tidally perturbed high-order g-mode pulsations in V456 Cyg, providing insights into star-tide interactions in binary systems.

Findings

Pulsations originate from the secondary star.

Pulsation amplitudes are amplified by tidal effects.

Secondary star likely has a uniform radial rotation profile.

Abstract

Context. Many well-known bright stars have been observed by the ongoing Transiting Exoplanet Survey Satellite (TESS) space mission. For several of them, these new data reveal previously unobserved variability, such as tidally perturbed pulsations in close binary stars. Aims. Using newly detected gravity-mode (g-mode) pulsations in V456 Cyg, we aim to determine the global stellar properties of this short-period eclipsing binary and evaluate the interaction between these pulsations and the tides. Methods. We model the binary orbit and determine the physical properties of the component stars using the TESS photometry and published spectroscopy. We then measure the pulsation frequencies from the residuals of the light curve fit using iterative prewhitening, and analyse them to determine the global asteroseismic stellar parameters. We evaluate the pulsation parameters as a function of the orbital phase. Results. We find that the pulsations belong to the secondary component of V456 Cyg and that this star likely has a uniform radial rotation profile, synchronous ($\nu_{\rm rot} = 1.113(14) \rm d^{-1}$) with the binary orbit ($\nu_{\rm orb} = 1.122091(8) \rm d^{-1}$). The observed g modes are amplified by almost a factor three in the stellar hemisphere facing the primary. We present evidence that this is caused by tidal perturbation of the pulsations, with the mode coupling being strongly affected. Conclusions. V456 Cyg is only the second object for which tidally perturbed high-order g-mode pulsations are identified, after $\pi^5$ Ori. This opens up new opportunities for tidal g-mode asteroseismology, as it demonstrates another avenue in which g modes and tides can interact with each other.