Fundamental effective temperature measurements for eclipsing binary stars -- VIII. NIRPS spectroscopy of CD-27 2812

Abstract

There are very few M-dwarfs with accurate independent measurements of their mass, radius and effective temperature (T eff) that can be used to test stellar models for these low-mass stars. We aim to use high-resolution, near-infrared spectroscopy to measure the mass of M-dwarfs in eclipsing binary systems with solar-type stars and to measure the flux ratio between the two stars at near-infrared wavelengths. This information can then be combined with the analysis of the light curve, photometry, and the parallax to measure the mass, radius and T eff for both stars. We have used the TESS light curve and spectra observed with the HARPS and NIRPS spectrographs to measure the following model-independent radii and masses for CD-27 2812, an F9 V star in an eclipsing binary with a much fainter M-dwarf companion on a short near-circular orbit (P=7.8 d) : R1 = 1.721 0.004 R, R2 = 0.531 0.002 R, M1 = 1.3597 0.0024 M, and M2 = 0.5624 0.0006 M We show how the NIRPS spectra can be used to measure the flux ratio in the J and H bands. This information, combined with published photometry and the Gaia DR3 parallax, leads to the following effective temperature measurements: T eff,1 = 6197 55 K, T eff,2 = 3770 28 K. This study demonstrates that it is now feasible to use eclipsing binaries to accurately measure T eff for M-dwarf stars for which we also have independent mass and radius measurements.