Metal Abundances, Radial Velocities and other Physical Characteristics for the RR Lyrae Stars in the Kepler Field

TL;DR

This study provides detailed spectroscopic and photometric analysis of 41 RR Lyrae stars in the Kepler field, revealing their metallicities, pulsation modes, and new period-metallicity relationships, enhancing understanding of their physical properties.

Contribution

It offers the first comprehensive spectroscopic and photometric characterization of RR Lyrae stars in the Kepler field, including new period-[Fe/H] relations and insights into Blazhko effect variability.

Findings

Spectroscopic [Fe/H] ranges from -2.54 to -0.05 dex.

Confirmed four stars as metal-rich, with additional four identified as such.

Derived new period-phi31-[Fe/H] relationships from Kepler data.

Abstract

Spectroscopic iron-to-hydrogen ratios, radial velocities, atmospheric parameters, and new photometric analyses are presented for 41 RR Lyrae stars (and one probable high-amplitude delta Scuti star) located in the field-of-view of the Kepler space telescope. Thirty-seven of the RR Lyrae stars are fundamental-mode pulsators (i.e., RRab stars) of which 16 exhibit the Blazhko effect. Four of the stars are multiperiodic RRc pulsators oscillating primarily in the first-overtone mode. Spectroscopic [Fe/H] values for the 34 stars for which we were able to derive estimates range from -2.54 +/- 0.13 (NR Lyr) to -0.05 +/- 0.13 dex (V784 Cyg), and for the 19 Kepler-field non-Blazhko stars studied by Nemec et al.(2011) the abundances agree will with their photometric [Fe/H] values. Four non-Blazhko RR Lyrae stars that they identified as metal-rich (KIC 6100702, V2470 Cyg, V782 Cyg and V784 Cyg) are confirmed as such, and four additional stars (V839 Cyg, KIC 5520878, KIC 8832417, KIC 3868420) are also shown here to be metal-rich. Five of the non-Blazhko RRab stars are found to be more metal-rich than [Fe/H] -0.9 dex while all of the 16 Blazhko stars are more metal-poor than this value. New period-phi31s-[Fe/H] relationships are derived based on ~970 days of quasi-continuous high-precison Q0-Q11 long- and short-cadence Kepler photometry. With the exception of some Blazhko stars, the spectroscopic and photometric [Fe/H] values are in good agreement. Several stars with unique photometric characteristics are identified, including a Blazhko variable with the smallest known amplitude and frequency modulations (V838 Cyg).