A multi-wavelength analysis of BL Her stars: Models versus Observations

Abstract

We present new theoretical period--luminosity (PL) and period--radius (PR) relations at multiple wavelengths (Johnson--Cousins--Glass and Gaia passbands) for a fine grid of BL~Herculis models computed using mesa-rsp. The non-linear models were computed for periods typical of BL~Her stars, i.e. 1≤ P ( days) ≤4, covering a wide range of input parameters: metallicity (-2.0 dex ≤ [Fe/H] ≤ 0.0 dex), stellar mass (0.5--0.8 M), luminosity (50--300 L) and effective temperature (full extent of the instability strip; in steps of 50K). We investigate the impact of four sets of convection parameters on multi-wavelength properties. Most empirical relations match well with theoretical relations from the BL~Her models computed using the four sets of convection parameters. No significant metallicity effects are seen in the PR relations. Another important result from our grid of BL~Her models is that it supports combining PL relations of RR Lyrae and Type~II Cepheids together as an alternative to classical Cepheids for the extragalactic distance scale calibration.