# Evidences of low-diffusion bubbles around Galactic pulsars

**Authors:** Mattia Di Mauro, Silvia Manconi, Fiorenza Donato

arXiv: 1908.03216 · 2021-12-07

## TL;DR

This paper investigates the low-diffusion regions around Galactic pulsars, analyzing gamma-ray observations to estimate diffusion coefficients and assess the detectability of inverse Compton scattering halos with current and future gamma-ray telescopes.

## Contribution

It provides the first detailed analysis of the morphology of ICS gamma-ray halos around pulsars, estimating low diffusion coefficients and predicting detection prospects with CTA, HAWC, and HESS.

## Key findings

- Galactic pulsars are surrounded by low-diffusion bubbles of at least 80 pc.
- The diffusion coefficient around these pulsars is estimated to be 2-30 x 10^{26} cm^2/s at 1 TeV.
- Future gamma-ray experiments can significantly increase the number of detected ICS halos.

## Abstract

Recently, a few-degrees extended $\gamma$-ray halo in the direction of Geminga pulsar has been detected by HAWC, Milagro and Fermi-LAT. These observations can be interpreted with positrons ($e^+$) and electrons ($e^-$) accelerated by Geminga pulsar wind nebula (PWN), released in a Galactic environment with a low diffusion coefficient ($D_0$), and inverse Compton scattering (ICS) with the interstellar radiation fields. We inspect here how the morphology of the ICS $\gamma$-ray flux depends on the energy, the pulsar age and distance, and the strength and extension of the low-diffusion bubble. In particular we show that $\gamma$-ray experiments with a peak of sensitivity at TeV energies are the most promising ones to detect ICS halos. We perform a study of the sensitivity of HAWC, HESS and the future CTA experiment finding that, with efficiencies of the order of a few %, the first two experiments should have already detected a few tens of ICS halos while the latter will increase the number of detections by a factor of 4. We then consider a sample of sources associated to PWNe and detected in the HESS Galactic plane survey and in the second HAWC catalog. We use the information available in these catalogs for the $\gamma$-ray spatial morphology and flux of these sources to inspect the value of $D_0$ around them and the $e^{\pm}$ injection spectrum. All sources are detected as extended with a $\gamma$-ray emission extended about $15-80$ pc. Assuming that most of the $e^{\pm}$ accelerated by these sources have been released in the interstellar medium, the diffusion coefficient is $2-30 \cdot 10^{26}$ cm$^2$/s at 1 TeV, i.e. two orders of magnitude smaller than the value considered to be the average in the Galaxy. These observations imply that Galactic PWNe have low-diffusion bubbles with a size of at least 80 pc.

## Full text

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## Figures

29 figures with captions in the complete paper: https://tomesphere.com/paper/1908.03216/full.md

## References

52 references — full list in the complete paper: https://tomesphere.com/paper/1908.03216/full.md

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Source: https://tomesphere.com/paper/1908.03216