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Calibration of LAMOST Stellar Surface Gravities Using the Kepler Asteroseismic Data

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arxiv 1604.05496 v1 pith:4DYS6QME submitted 2016-04-19 astro-ph.SR

Calibration of LAMOST Stellar Surface Gravities Using the Kepler Asteroseismic Data

classification astro-ph.SR
keywords lamostloggparametersstarsspectroscopicteffcalibrationdata
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Asteroseismology is a powerful tool to precisely determine the evolutionary status and fundamental properties of stars. With the unprecedented precision and nearly continuous photometric data acquired by the NASA Kepler mission, parameters of more than 10$^4$ stars have been determined nearly consistently. However, most studies still use photometric effective temperatures (Teff) and metallicities ([Fe/H]) as inputs, which are not sufficiently accurate as suggested by previous studies. We adopted the spectroscopic Teff and [Fe/H] values based on the LAMOST low-resolution spectra (R~1,800), and combined them with the global oscillation parameters to derive the physical parameters of a large sample of stars. Clear trends were found between {\Delta}logg(LAMOST - seismic) and spectroscopic Teff as well as logg, which may result in an overestimation of up to 0.5 dex for the logg of giants in the LAMOST catalog. We established empirical calibration relations for the logg values of dwarfs and giants. These results can be used for determining the precise distances to these stars based on their spectroscopic parameters.

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