Gamma-ray Emission from a Young Star Cluster in the Star-Forming Region RCW 38
Paarmita Pandey, Laura A. Lopez, Anna L. Rosen, Todd A. Thompson, Tim Linden, Ian Blackstone, Lachlan Lancaster
arXiv:2404.19001v1 Announce Type: new
Abstract: We report the detection of gamma-ray emission near the young Milky Way star cluster ($approx$ 0.5 Myr old) in the star-forming region RCW 38. Using 15 years of data from the Fermi-LAT, we find a significant ($ sigma > 22$) detection coincident with the cluster, producing a total $gamma$-ray luminosity of $L_{gamma} = (2.66pm 0.92) times 10^{34}$ erg s$^{-1}$ adopting a power-law spectral model ($Gamma = 2.34pm0.04$) in the 0.1 $-$ 500 GeV band. We estimate the total wind power to be $7 times 10^{36}$ erg s$^{-1}$, corresponding to a CR acceleration efficiency of $eta_{rm CR} simeq 0.4$ for a diffusion coefficient consistent with the local interstellar medium of $D = 10^{28}$ cm$^{2}$ s$^{-1}$. Alternatively, the $gamma$-ray luminosity could also account for a lower acceleration efficiency of 0.1 if the diffusion coefficient in the star-forming region is smaller, $Dsimeq 2.5times10^{27},{rm cm^2,,s^{-1}}$. We compare the hot-gas pressure from Chandra X-ray analysis to the CR pressure and find the former is four orders of magnitude greater, suggesting that the CR pressure is not dynamically important relative to the stellar wind feedback. As RCW 38 is too young for supernovae to have occurred, the high CR acceleration efficiency in RCW 38 demonstrates that stellar winds may be an important source of Galactic cosmic rays.arXiv:2404.19001v1 Announce Type: new
Abstract: We report the detection of gamma-ray emission near the young Milky Way star cluster ($approx$ 0.5 Myr old) in the star-forming region RCW 38. Using 15 years of data from the Fermi-LAT, we find a significant ($ sigma > 22$) detection coincident with the cluster, producing a total $gamma$-ray luminosity of $L_{gamma} = (2.66pm 0.92) times 10^{34}$ erg s$^{-1}$ adopting a power-law spectral model ($Gamma = 2.34pm0.04$) in the 0.1 $-$ 500 GeV band. We estimate the total wind power to be $7 times 10^{36}$ erg s$^{-1}$, corresponding to a CR acceleration efficiency of $eta_{rm CR} simeq 0.4$ for a diffusion coefficient consistent with the local interstellar medium of $D = 10^{28}$ cm$^{2}$ s$^{-1}$. Alternatively, the $gamma$-ray luminosity could also account for a lower acceleration efficiency of 0.1 if the diffusion coefficient in the star-forming region is smaller, $Dsimeq 2.5times10^{27},{rm cm^2,,s^{-1}}$. We compare the hot-gas pressure from Chandra X-ray analysis to the CR pressure and find the former is four orders of magnitude greater, suggesting that the CR pressure is not dynamically important relative to the stellar wind feedback. As RCW 38 is too young for supernovae to have occurred, the high CR acceleration efficiency in RCW 38 demonstrates that stellar winds may be an important source of Galactic cosmic rays.