The late type eclipsing binaries in the Large Magellanic Cloud: catalogue of fundamental physical parameters

TL;DR

This paper provides a detailed catalog of fundamental parameters for twenty detached eclipsing binaries in the Large Magellanic Cloud, enabling precise distance measurements and insights into stellar evolution.

Contribution

It presents new and updated physical parameters for 20 eclipsing binaries in the LMC, including 11 newly analyzed systems, with high-precision measurements suitable for distance determination.

Findings

All systems have component dimensions measured with better than 3% precision.

Stellar ages range from 0.1 to 2.1 Gyr, showing weak age-metallicity relation.

Two systems exhibit complex evolutionary histories incompatible with single isochrones.

Abstract

We present a determination of precise fundamental physical parameters of twenty detached, double- lined, eclipsing binary stars in the Large Magellanic Cloud (LMC) containing G- or early K-type giant stars. Eleven are new systems, the remaining nine are systems already analyzed by our team for which we present updated parameters. The catalogue results from our long-term survey of eclipsing binaries in the Magellanic Clouds suitable for high-precision determination of distances (the Araucaria project). The V-band brightnesses of the systems range from 15.4 mag to 17.7 mag and their orbital periods range from 49 days to 773 days. Six systems have favorable geometry showing total eclipses. The absolute dimensions of all eclipsing binary components are calculated with a precision of better than 3% and all systems are suitable for a precise distance determination. The measured stellar masses are in the range 1.4 to 4.6 M_sun and comparison with the MESA isochrones gives ages between 0.1 and 2.1 Gyr. The systems show some weak age-metallicity relation. Two systems have components with very different masses: OGLE LMC-ECL-05430 and OGLE LMC-ECL-18365. Neither system can be fitted by single stellar evolution isochrone, explained by a past mass transfer scenario in the case of ECL-18365 and a gravitational capture or a hierarchical binary merger scenario in the case of ECL-05430. The longest period system OGLE LMC SC9 230659 shows a surprising apsidal motion which shifts the apparent position of the eclipses. In one spectrum of OGLE LMC-ECL-12669 we noted a peculiar dimming of one of the components by 65% well outside of the eclipses. We interpret this observation as arising from an extremely rare occultation event as a foreground Galactic object covers only one component of an extragalactic eclipsing binary.