Abstract

We introduce a new photometric catalog of RR Lyrae (RRL) variables (similar to 300,000) mainly based on data available in public datasets. We also present the largest and most homogeneous spectroscopic dataset of RRLs and blue horizontal branch (BHB) stars ever collected. This includes radial velocity measurements (similar to 16,000) and iron abundances (Delta S method for 8140 RRLs, plus 547 from literature). Elemental abundances based on high-resolution spectra are provided for 487 RRLs and 64 BHB stars. We identified candidate RRLs associated with the main Galactic components and their iron distribution function (IDF) becomes more metal rich when moving from the halo ([Fe/H] = -1.56) to the thick disk (TCD; [Fe/H] = -1.47) and thin disk (TND; [Fe/H] = -0.73). Furthermore, halo RRLs and RRLs in retrograde orbits are alpha enhanced ([alpha/Fe]=0.27, sigma = 0.18), while TCD RRLs are either alpha enhanced ([Fe/H] <= -1.0) or alpha poor ([Fe/H] > -1.0), and TND RRLs are mainly alpha poor ([alpha/Fe] = -0.01, sigma = 0.20). We also identified RRLs associated with the main stellar streams-Gaia-Sausage-Enceladus (GSE); Sequoia, Helmi, and Sagittarius-and we found that their IDFs are quite similar to halo RRLs. However, GSE RRLs lack the metal-poor/metal-rich tails and their alpha-element distribution is quite compact. The iron radial gradient in Galactocentric distance for TND, TCD, and halo RRLs is negative and it decreases from -0.026, to -0.010, and to -0.002 dex kpc(-1). The iron radial gradient based on dry halo (halo without substructures) RRLs is, within the errors, equal to the global halo. We also found a strong similarity between iron and [alpha/Fe] radial gradients of Milky Way RRLs and M31 globular clusters throughout the full range of galactocentric distances covered by the two samples.