Detection of diffuse gamma-ray emission towards a massive star forming region hosting Wolf-Rayet stars

TL;DR

This study detects extended gamma-ray emission near a massive star cluster with Wolf-Rayet stars, suggesting cosmic rays accelerated by stellar winds produce gamma rays through interactions with molecular clouds, highlighting suppressed cosmic ray diffusion.

Contribution

First detection of gamma-ray emission associated with a young massive star cluster hosting Wolf-Rayet stars, linking stellar winds to cosmic ray acceleration and gamma-ray production.

Findings

Gamma-ray source spatially coincides with molecular clouds near Masgomas-6a.

Gamma-ray luminosity is consistent with cosmic rays powered by WR star winds.

Cosmic ray diffusion appears suppressed in the molecular cloud environment.

Abstract

Isotopic and elemental abundances seen in Galactic cosmic rays imply that $\sim20\%$ of the cosmic-ray (CR) nuclei are probably synthesized by massive Wolf-Rayet (WR) stars. Massive star clusters hosting WR and OB-type stars have been proposed as potential Galactic cosmic-ray accelerators for decades, in particular via diffusive shock acceleration at wind termination shocks. Here we report the analysis of {\em Fermi} Large Area Telescope's data towards the direction of Masgomas-6a, a young massive star cluster candidate hosting two WR stars. We detect an extended $\gamma$-ray source with $\rm{TS}=183$ in the vicinity of Masgomas-6a, spatially coincident with two unassociated {\em Fermi} 4FGL sources. We also present the CO observational results of molecular clouds in this region, using the data from the Milky Way Imaging Scroll Painting project. The $\gamma$-ray emission intensity correlates well with the distribution of molecular gas at the distance of Masgomas-6a, indicating that these gamma rays may be produced by CRs accelerated by massive stars in Masgomas-6a. At the distance of $3.9{\rm \ kpc}$ of Masgomas-6a, the luminosity of the extended source is $(1.81\pm0.02)\times 10^{35}{\rm \ erg \ s^{-1}}$. With a kinetic luminosity of $\sim 10^{37}{\rm erg \ s^{-1}}$ in the stellar winds, the WR stars are capable of powering the $\gamma$-ray emission via neutral pion decay resulted from cosmic ray $pp$ interactions. The size of the GeV source and the energetic requirement suggests a CR diffusion coefficient smaller than that in the Galactic interstellar medium, indicating strong suppression of CR diffusion in the molecular cloud.