Detailed Investigation of a W UMa Contact Binary with an Ultralow Mass Ratio and a Third-Body as a Potential Merger Candidate

TL;DR

This study reanalyzed a contact binary system with an ultralow mass ratio, revealing its potential as a merger candidate and providing insights into the stability and evolution of such extreme systems.

Contribution

The paper presents the lowest known mass ratio contact binary reanalysis using MCMC and TESS data, highlighting its instability and merger potential.

Findings

TYC 3801-1529-1 has the lowest known mass ratio among analyzed contact binaries.

The system's period variations show cyclic trends and uncertain long-term behavior.

The secondary is likely a brown dwarf, and the third body is a low-mass M dwarf.

Abstract

The lower limit of the mass ratio in contact binaries remains uncertain, with observations suggesting systems exist below theoretical predictions. The stability of such very low mass ratio systems is still debated. Based on our review of systems within the mass ratio cutoff range, we reanalyzed TYC 3801-1529-1 and found it to have the lowest known mass ratio, q=0.024_{-(1)}^{+(2)}, among analyzed contact binaries. The reanalysis of this target was carried out using the BSN application and the MCMC method. We then compared our light curve solution obtained from TESS observations with the results of a previous study. We studied the period variations of this system and identified a cyclic trend over the past six years. After the third-body contribution has been removed, the system's period variations can be described either by a linear trend with a negative slope or by a quadratic trend with a downward curvature. These results indicate that it is still not possible to definitively determine whether the orbital period is increasing or decreasing, underscoring the importance of future observations. By considering the challenges of detecting the faint secondary in extremely low mass ratio systems, we estimated the absolute parameters of the target. Based on our analysis, the secondary component of the binary is likely a brown dwarf, while the third body appears to be a low-mass M-type dwarf. According to our analysis, TYC 3801-1529-1 is dynamically unstable and thus represents a remarkable candidate for a binary merger.