Overview of the LAMOST-$Kepler$ project

TL;DR

The LAMOST-$Kepler$ project has collected extensive low- and medium-resolution spectra of stars in the Kepler field, enabling diverse stellar research and promising further scientific discoveries with ongoing data collection.

Contribution

This paper summarizes the progress and scientific impact of the LAMOST-$Kepler$ spectroscopic survey, highlighting new data sets and research opportunities in stellar astrophysics.

Findings

Over 238,000 low-resolution spectra for 155,623 stars collected by 2018.

Medium-resolution spectra for about 12,000 stars enable additional research.

Ongoing data collection promises further scientific results.

Abstract

The NASA $Kepler$ mission obtained long-term high-quality photometric observations for a large number of stars in its original field of view from 2009 to 2013. In order to provide reliable stellar parameters in a homogeneous way, the LAMOST telescope began to carry out low-resolution spectroscopic observations for as many stars as possible in the $Kepler$ field in 2012. By September 2018, 238,386 low-resolution spectra with SNR$_g \geq 6$ had been collected for 155,623 stars in the $Kepler$ field, enabling the determination of atmospheric parameters and radial velocities, as well as spectral classification of the target stars. This information has been used by astronomers to carry out research in various fields, including stellar pulsations and asteroseismology, exoplanets, stellar magnetic activity and flares, peculiar stars and the Milky Way, binary stars, etc. We summarize the research progress in these fields where the usage of data from the LAMOST-$Kepler$ (LK) project has played a role. In addition, time-domain medium-resolution spectroscopic observations have been carried out for about 12,000 stars in four central plates of the $Kepler$ field since 2018. The currently available results show that the LAMOST-$Kepler$ medium resolution (LK-MRS) observations provide qualified data suitable for research in additional science projects including binaries, high-amplitude pulsating stars, etc. As LAMOST is continuing to collect both low- and medium-resolution spectra of stars in the $Kepler$ field, we expect more data to be released continuously and new scientific results to appear based on the LK project data.