CCD () photometry of the open cluster NGC 6793 and its dynamical evolution

Abstract

We present new astrophysical parameters for the open cluster NGC~6793 based on new CCD UBV(RI)KC photometry. We derived a reddening of E(B-V) = 0.24 0.02~mag and a heavy element abundance of Z = 0.024 ([Fe/H] = +0.20~dex). Padova isochrone fitting to the V × (B-V) colour-magnitude diagram yields an intermediate age of 525 51~Myr and a distance modulus of μ= 8.80 0.05~mag, corresponding to a distance of d = 575 58~pc from the Sun. The core radius of NGC~6793 appears to be shrinking due to advanced dynamical evolution (τ2 = 1.13), driven by mass segregation and the evaporation of low-mass stars from the central region. The ratios of core to half-mass radius (Rc/Rh) and half-mass to Jacobi radius (Rh/RJ) indicate that the cluster's evolution is governed by the combined effects of internal two-body relaxation, mass segregation, and external tidal perturbations. The ratio Rt/RJ = 0.99 suggests that the cluster is currently in a tidally filling state. The parameter pairs (tdiss/trlx1 = 40, RJ/Rc = 0.72) and (Rh/RJ = 0.38, ρamb = -0.88) place NGC~6793 among the relatively compact clusters within RGC < 7.9~kpc. This implies a compact internal structure that is stable against the combined effects of two-body encounters and tidal heating. Given its current state, NGC~6793 will likely dissolve and disperse before entering the final contraction phase (R4 regime).