# Extended Gamma-ray Emission from the G25.0+0.0 Region: A Star Forming   Region Powered by the Newly Found OB Association?

**Authors:** Junichiro Katsuta, Yasunobu Uchiyama, Stefan Funk

arXiv: 1704.06110 · 2017-05-03

## TL;DR

This study reports the detection of extended gamma-ray emission from the G25.0+0.0 region, likely associated with a star-forming region powered by a newly identified OB association, similar to the Cygnus cocoon.

## Contribution

First detection of gamma-ray emission from a star-forming region in our galaxy linked to a newly found OB association, expanding understanding of cosmic ray acceleration in such regions.

## Key findings

- Gamma-ray emission consists of two extended sources and one point source.
- The extended sources have sizes around 1.4° x 0.6° and spectral indices of 1.53 and 2.1.
- A candidate OB association G25.18+0.26 is identified, likely powering the gamma-ray emission.

## Abstract

We report a study of extended $\gamma$-ray emission with the Large Area Telescope (LAT) onboard the Fermi Gamma-ray Space Telescope, which is likely to be the second case of a $\gamma$-ray detection from a star-forming region (SFR) in our Galaxy. The LAT source is located in the G25 region, $1.7^{\circ} \times 2.1^{\circ}$ around $(l, b) = (25.0^{\circ}, 0.0^{\circ})$. The $\gamma$-ray emission is found to be composed of two extended sources and one point-like source. The extended sources have a similar sizes of about $1.4^{\circ} \times 0.6^{\circ}$. An $\sim 0.4^{\circ}$ diameter sub-region of one has a photon index of $\Gamma = 1.53 \pm 0.15$; and is spatially coincident with HESS J1837$-$069, likely a pulsar wind nebula. The other parts of the extended sources have a photon index of $\Gamma = 2.1 \pm 0.2$ without significant spectral curvature. Given their spatial and spectral properties, they have no clear associations with sources at other wavelengths. Their $\gamma$-ray properties are similar to those of the Cygnus cocoon SFR, the only firmly established $\gamma$-ray detection of an SFR in the Galaxy. Indeed, we find bubble-like structures of atomic and molecular gas in G25, which may be created by a putative OB association/cluster. The $\gamma$-ray emitting regions appear confined in the bubble-like structure; similar properties are also found in the Cygnus cocoon. In addition, using observations with the the XMM-Newton we find a candidate young massive OB association/cluster G25.18+0.26 in the G25 region. We propose that the extended $\gamma$-ray emission in G25 is associated with an SFR driven by G25.18+0.26. Based on this scenario, we discuss possible acceleration processes in the SFR and compare them with the Cygnus cocoon.

## Full text

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## Figures

38 figures with captions in the complete paper: https://tomesphere.com/paper/1704.06110/full.md

## References

83 references — full list in the complete paper: https://tomesphere.com/paper/1704.06110/full.md

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Source: https://tomesphere.com/paper/1704.06110