# Connecting the ISM to TeV PWNe and PWNe candidates

**Authors:** F. J. Voisin, G. P. Rowell, M. G. Burton, Y. Fukui, H. Sano, F., Aharonian, N. Maxted, C. Braiding, R. Blackwell, J. Lau

arXiv: 1905.04517 · 2020-08-10

## TL;DR

This study explores the interstellar medium around seven TeV gamma-ray sources linked to pulsar wind nebulae, revealing dense molecular clouds and potential cosmic-ray interactions, with implications for understanding their origins and contributions to gamma-ray emissions.

## Contribution

It provides new molecular line observations and distance estimates for several PWNe and SNRs, and discusses their potential roles in cosmic-ray acceleration and gamma-ray production.

## Key findings

- Detection of dense molecular clouds near TeV sources.
- Identification of possible SNR-PWN interactions.
- Assessment of PWNe contributions to gamma-ray emission.

## Abstract

We investigate the interstellar medium (ISM) towards seven TeV gamma-ray sources thought to be pulsar wind nebulae (PWNe) using Mopra molecular line observations at 7mm [CS(1-0), SiO(1-0,v=0)], Nanten CO(1-0) data and the SGPS/GASS HI survey. We have discovered several dense molecular clouds co-located to these TeV gamma-ray sources , which allows us to search for cosmic-rays (CRs) coming from progenitor SNRs or, potentially, from PWNe. We notably found SiO(1-0,v=0) emission towards HESS J1809-193, highlighting possible interaction between the adjacent supernova remnant SNR G011.0-0.0 and the molecular cloud at d $\sim$ 3.7 kpc. Using morphological features, and comparative studies of our column densities with those obtained from X-ray measurements, we claim a distance d $\sim$ 8.6 - 9.7 kpc for SNR G292.2-00.5, d $\sim$ 3.5 - 5.6 kpc for PSR J1418-6058 and d $\sim$ 1.5 kpc for the new SNR candidate found towards HESS J1303-631. From our mass and density estimates of selected molecular clouds, we discuss signatures of hadronic/leptonic components from PWNe and their progenitor SNRs. Interestingly, the molecular gas, which overlaps HESS J1026-582 at d $\sim$ 5 kpc, may support a hadronic origin. We find however that this scenario requires an undetected cosmic-ray accelerator to be located at d $\lt$ 10 pc from the molecular cloud. For HESS J1809-193, the cosmic-rays which have escaped SNR G011.0-0.0 could contribute to the TeV gamma-ray emission. Finally, from the hypothesis that at most 20% the pulsar spin down power could be converted into CRs, we find that, among the studied PWNe, only those from PSR J1809-1917 could potentially contribute to the TeV emission.

## Full text

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## Figures

36 figures with captions in the complete paper: https://tomesphere.com/paper/1905.04517/full.md

## References

88 references — full list in the complete paper: https://tomesphere.com/paper/1905.04517/full.md

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Source: https://tomesphere.com/paper/1905.04517