S-type stars discovered in Medium-Resolution Spectra of LAMOST DR9

TL;DR

This study identifies 606 S-type stars from LAMOST DR9, with 539 new discoveries, analyzes their properties, and finds significant correlations between atmospheric parameters and spectral features, providing a valuable catalog for further research.

Contribution

The paper presents a novel method for identifying S-type stars in LAMOST data and provides the largest catalog of such stars with detailed spectral and atmospheric analysis.

Findings

Most S-type stars have C/O ratios greater than 0.5.

Log g significantly affects ZrO band strength.

238 binary candidates identified based on radial velocities.

Abstract

In this paper, we report on 606 S-type stars identified from Data Release 9 of the LAMOST medium-resolution spectroscopic (MRS) survey, and 539 of them are reported for the first time. The discovery of these stars is a three-step process, i.e., selecting with the ZrO band indices greater than 0.25, excluding non-S-type stars with the iterative Support Vector Machine method, and finally retaining stars with absolute bolometric magnitude larger than -7.1. The 606 stars are consistent with the distribution of known S-type stars in the color-magnitude diagram. We estimated the C/Os using the [C/Fe] and [O/Fe] provided by APOGEE and the MARCS model for S-type stars, respectively, and the results of the two methods show that C/Os of all stars are larger than 0.5. Both the locations on the color-magnitude diagram and C/Os further verify the nature of our S-type sample. Investigating the effect of TiO and atmospheric parameters on ZrO with the sample, we found that log g has a more significant impact on ZrO than Teff and [Fe/H], and both TiO and log g may negatively correlate with ZrO. According to the criterion of Tian et al. (2020), a total of 238 binary candidates were found by the zero-point-calibrated radial velocities from the officially released catalog of LAMOST MRS and the catalog of Zhang et al. (2021). A catalog of these 606 S-type stars is available from the following link https://doi.org/10.12149/101097.