Isochrone fitting of Galactic globular clusters -- V. NGC6397 and NGC6809 (M55)

Abstract

We fit various colour-magnitude diagrams (CMDs) of the Galactic globular clusters NGC\,6397 and NGC\,6809 (M55) by isochrones from the Dartmouth Stellar Evolution Database (DSED) and Bag of Stellar Tracks and Isochrones (BaSTI) for α-enhanced [α/Fe]=+0.4. For the CMDs, we use data sets from HST, Gaia, VISTA, and other sources utilizing 32 and 23 photometric filters for NGC\,6397 and NGC\,6809, respectively, from the ultraviolet to mid-infrared. We obtain the following characteristics for NGC\,6397 and NGC\,6809, respectively: metallicities [Fe/H]=-1.840.020.1 and -1.780.020.1 (statistic and systematic uncertainties); distances 2.450.020.06 and 5.240.020.18 kpc; ages 12.90.10.8 and 13.00.10.8 Gyr; reddenings E(B-V)=0.1780.0060.01 and 0.1180.0040.01 mag; extinctions AV=0.590.010.02 and 0.370.010.04 mag; extinction-to-reddening ratio RV=3.32+0.32-0.28 and 3.16+0.66-0.56. Our estimates agree with most estimates from the literature. BaSTI gives systematically higher [Fe/H] and lower reddenings than DSED. Despite nearly the same metallicity, age, and helium enrichment, these clusters show a considerable horizontal branch (HB) morphology difference, which must therefore be described by another parameter. This parameter must predominantly explain why the least massive HB stars (0.58-0.63 solar masses) are only found within NGC 6809. Probably they have been lost by the core-collapse cluster NGC\,6397 during its dynamical evolution and mass segregation. In contrast, NGC\,6809 has a very low central concentration and, hence, did not undergo this process.