Analysis of the Gaia RVS Region in ESPaDOnS Spectra of Asteroseismic Calibration Stars
Abstract
While surface gravity can be measured from asteroseismology, asteroseismology cannot be applied to every star. Surface gravity is a critical stellar parameter because it can be used to calculate the radii of stars, which is important in the characterization of host stars of exoplanets. Here we present spectroscopic observations from ESPaDOnS on the Canada-France-Hawaii Telescope of 172 benchmark “gold standard” stars observed by the NASA Kepler Mission for which densities and surface gravities have been precisely measured using asteroseismology. The goal is to discover an empirical correlation between the equivalent width of the spectral lines in the infrared Ca II triplet region (from 8470 to 8710 angstroms) against surface gravity and other stellar parameters, such as effective temperature and metallicity. The Mg I line at 8736 angstroms has the best potential to be an indicator of surface gravity so far out of the spectral lines in this region with equivalent width increasing slightly as a function of surface gravity; however, degeneracies with effective temperature and metallicity need to be explored further. If a true indicator for surface gravity can be found, then it can to be applied to the R~11000 Gaia radial velocity spectra, which will be released for millions of stars over the coming years.
- Publication:
-
American Astronomical Society Meeting Abstracts #231
- Pub Date:
- January 2018
- Bibcode:
- 2018AAS...23134940V