RR Lyrae stars in Galactic globular clusters. VI. The Period-Amplitude relation

Abstract

We compare theory and observations for fundamental RR Lyrae in the solar neighborhood and in both Oosterhoff type I (OoI) and type II (OoII) Galactic globular clusters (GGCs). The distribution of cluster RRab in the PAV plane depends not only on the metal abundance, but also on the cluster Horizontal Branch (HB) morphology. On average the observed kpuls parameter, connecting the period to the visual amplitude, increases when moving from metal-poor to metal-rich GGCs. However, this parameter shows marginal changes among OoI clusters with intermediate to red HB types and iron abundances -1.8<= [Fe/H] <=-1.1, whereas its value decreases in OoII clusters with the bluer HB morphology. Moreover, at [Fe/H]=-1.7+-0.1 the OoI clusters present redder HB types and larger <kpuls> values than the OoII clusters. The RRab variables in Omega Cen and in the solar neighborhood further support the evidence that the spread in [Fe/H], at fixed kpuls, is of the order of +-0.5 dex. Synthetic HB simulations show that the PAV plane can provide accurate cluster distance estimates. The RRab variables in OoI and in OoII clusters with very blue HB types obey a well-defined MV(RR)-kpuls relation, while those in OoII clusters with moderately blue HB types present a zero-point that is ~0.05 mag brighter. Regarding field variables, we show that with [Fe/H]=> -1.0 a unique MV(RR)-kpuls relation can be adopted, independently of the parent HB morphology. Current findings suggest that the PAV distribution does not seem to be a robust diagnostic for the metal abundance of RRab variables. However, the same observables can be used to estimate the absolute magnitude of globular cluster and field RRab variables. We show that over the metallicity range -2.4<= [Fe/H] <= 0.0 the MV(RR)-[Fe/H] relation shows a parabolic behavior.