The role of young and evolved stars in the heating of dust in local galaxies

Abstract

Context. Dust is a fundamental component of the interstellar medium (ISM) and plays a critical role in galaxy evolution. Dust grains influence the ISM by cooling the gas, altering its chemistry, and absorbing stellar radiation, re-emitting it at longer wavelengths in the far-infrared (FIR) and sub-millimeter regimes. The cold dust component, which dominates the dust mass, is primarily heated by stellar radiation, including both young, massive stars and the diffuse emission from older stars. Understanding dust heating is essential to trace the connection between stellar populations and their environments. Aims. We aim to identify the dominant heating mechanisms of the cold dust in typical nearby spiral galaxies and explore the contributions of young and evolved stars to dust heating. Methods. Using 18 large, face-on spiral galaxies from the DustPedia project, we apply two complementary approaches: (1) correlation analysis between dust temperature (Tdust), SFR surface density (SigmaSFR), and stellar mass surface density (SigmaMstar); and (2) study of the relationship between Tdust and dust mass surface density (Sigmadust). Results. Tdust peaks at ~24 K in galaxy centers and drops to ~15 K at large radii. Galaxies with and without AGNs show similar Tdust profiles. For ~72% of the sample, both methods agree on the dominant heating source. Overall, we find that both young and evolved stars contribute to dust heating, with their relative roles varying between galaxies.