Ionization of He II in star-forming galaxies by X-rays from cluster winds and superbubbles

Abstract

The nature of the sources powering nebular Hea II emission in star-forming galaxies remains debated, and various types of objects have been considered, including Wolf-Rayet stars, X-ray binaries, and Population III stars. Modern X-ray observations show the ubiquitous presence of hot gas filling star-forming galaxies. We use a collisional ionization plasma code to compute the specific Hea II ionizing flux produced by hot gas and show that if its temperature is not too high (≥2;2.5 MK), then the observed levels of soft diffuse X-ray radiation could explain Hea II ionization in galaxies. To gain a physical understanding of this result, we propose a model that combines the hydrodynamics of cluster winds and hot superbubbles with observed populations of young massive clusters in galaxies. We find that in low-metallicity galaxies, the temperature of hot gas is lower and the production rate of Hea II ionizing photons is higher compared to high-metallicity galaxies. The reason is that the slower stellar winds of massive stars in lower-metallicity galaxies input less mechanical energy in the ambient medium. Furthermore, we show that ensembles of star clusters up to ∼10-20 Myr old in galaxies can produce enough soft X-rays to induce nebular Hea II emission. We discuss observations of the template low-metallicity galaxy I Zw 18 and suggest that the Hea II nebula in this galaxy is powered by a hot superbubble. Finally, appreciating the complex nature of stellar feedback, we suggest that soft X-rays from hot superbubbles are among the dominant sources of Hea II ionizing flux in low-metallicity star-forming galaxies.;