H-band Temperature and Metallicity Indicators for Cool Giants: Empirical Relations in Bayesian Framework

Abstract

We explored here the near-infrared H-band atmospheric window aiming to provide quantitative diagnostic tools for deriving stellar parameters, for instance, effective temperature (Teff) and metallicity ([Fe/H]), of cool giants (Teff < 5000 K) using low-resolution spectra. We obtained 177 cool giants from the X-shooter spectral library covering a wider metallicity range (-2.35 dex < [Fe/H] < 0.5 dex) than in earlier works. Degrading the spectral resolution to R 1200, we estimated equivalent widths of several important spectral features, and the behavior of spectral features with stellar parameters are studied. Also, the empirical relations for deriving Teff and [Fe/H] are established in the Bayesian framework. We found that 12CO at 1.56 μm and 1.62 μm, and 12CO+MgI at 1.71 μm are the best three Teff indicators with a typical accuracy of 153 K, 123 K and 107 K, respectively. The cubic Bayesian model provides the best metallicity estimator with a typical accuracy of 0.22 dex, 0.28 dex, and 0.24 dex for FeH at 1.62 μm, 12CO at 1.64 μm, and Fe I at 1.66 μm, respectively. We also showed a detailed quantitative metallicity dependence of Teff-EWs correlations defining three metallicity groups, supersolar ([Fe/H] > 0.0 dex), solar (-0.3 dex < [Fe/H] < 0.3 dex), and subsolar ([Fe/H] < -0.3 dex), from Hierarchical Bayesian modelling. The difference between the solar and subsolar relationship is statistically significant, but such difference is not evident between the solar and supersolar groups.