# Absolute dimensions of the low-mass eclipsing binary system NSVS   10653195

**Authors:** Ramon Iglesias-Marzoa, Maria J. Arevalo, Mercedes Lopez-Morales,, Guillermo Torres, Carlos Lazaro, Jeffrey L. Coughlin

arXiv: 1906.08205 · 2019-07-17

## TL;DR

This study precisely measures the physical parameters of the low-mass eclipsing binary NSVS 10653195, revealing oversized radii compared to models but consistent temperatures, aiding understanding of low-mass star behavior.

## Contribution

Developed a detailed physical model and obtained accurate measurements of masses, radii, and temperatures for the low-mass binary NSVS 10653195, enhancing knowledge of such systems.

## Key findings

- Stars have larger radii than predicted by models.
- Effective temperatures are consistent with theoretical predictions.
- System's age is estimated to be older than log(age)~8.

## Abstract

Low-mass stars in eclipsing binary systems show radii larger and effective temperatures lower than theoretical stellar models predict for isolated stars with the same masses. Eclipsing binaries with low-mass components are hard to find due to their low luminosity. As a consequence, the analysis of the known low-mass eclipsing systems is key to understand this behavior. We developed a physical model of the LMDEB system NSVS 10653195 to accurately measure the masses and radii of the components. We obtained several high-resolution spectra in order to fit a spectroscopic orbit. Standardized absolute photometry was obtained to measure reliable color indices and to measure the mean Teff of the system in out-of-eclipse phases. We observed and analyzed optical VRI and infrared JK band differential light-curves which were fitted using PHOEBE. A Markov-Chain Monte Carlo (MCMC) simulation near the solution found provides robust uncertainties for the fitted parameters. NSVS 10653195 is a detached eclipsing binary composed of two similar stars with masses of M1=0.6402+/-0.0052 Msun and M2=0.6511+/-0.0052 Msun and radii of R1=0.687^{+0.017}_{-0.024} Rsun and R2=0.672^{+0.018}_{-0.022} Rsun. Spectral types were estimated to be K6V and K7V. These stars rotate in a circular orbit with an orbital inclination of i=86.22+/-0.61 degrees and a period of P=0.5607222(2) d. The distance to the system is estimated to be d=135.2^{+7.6}_{-7.9} pc, in excellent agreement with the value from Gaia. If solar metallicity were assumed, the age of the system would be older than log(age)~8 based on the Mbol-log Teff diagram. NSVS 10653195 is composed of two oversized and active K stars. While their radii is above model predictions their Teff are in better agreement with models.

## Full text

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## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/1906.08205/full.md

## References

93 references — full list in the complete paper: https://tomesphere.com/paper/1906.08205/full.md

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Source: https://tomesphere.com/paper/1906.08205