# Constraints on axionlike particles with different magnetic field models   from the PKS 2155-304 energy spectrum

**Authors:** Jia Bu, Ya-Ping Li

arXiv: 1906.00357 · 2019-11-06

## TL;DR

This study uses TeV photon data from PKS 2155-304 to set new constraints on axion-like particles' mass and coupling, considering different magnetic field models and aligning with existing experimental bounds.

## Contribution

It introduces two magnetic field models to derive novel constraints on ALP parameters from astrophysical observations.

## Key findings

- Best constraints on ALP mass and coupling for both models.
- Reasonable ALP mass range 0.08-0.2 with coupling g_{11}=5.
- Results consistent with CAST upper bounds.

## Abstract

Axion Like Particles (ALPs) are one promising kind of dark matter candidate particles that are predicted to couple with photons in the presence of magnetic fields. The oscillations between photons and ALPs travelling in the magnetic fields have been used to constrain ALP properties. In this work, we obtain some new constraints on the ALP mass $m_{\rm a}$ and the photon-ALP coupling constant $g$ with two different magnetic field models through TeV photons from PKS 2155-304. One is the discrete-$\varphi$ model that the magnetic field has the orientation angle $\varphi$ changes discretely and randomly from one coherent domain to the next, another is the linearly-continuous-$\varphi$ model that the magnetic field orientation angle $\varphi$ varies continuously across neighboring coherent domains. For the discrete-$\varphi$ model, we can obtain the best constraints on the ALP mass $m_{1}=m_{\rm a}/(1\ {\rm neV})=0.1$ and on the photon-ALP coupling constant $g_{11}=g/(10^{-11}\ {\rm GeV^{-1}})=5$, the reasonable range of the ALP mass $m_{1}$ is 0.08 $\thicksim$ 0.2 when $g_{11}$=5, and the only reasonable value of the photon-ALP coupling constant is $g_{11}$=5 when $m_{1}$=0.1. For the linearly-continuous-$\varphi$ model, we can obtain the best constraints on the ALP mass $m_{1}=0.1$ and on the photon-ALP coupling constant $g_{11}=0.7$, the reasonable range of the ALP mass $m_{1}$ is 0.05 $\thicksim$ 0.4 when $g_{11}$=0.7, and the reasonable range of the photon-ALP coupling constant $g_{11}$ is 0.5 $\thicksim$ 1 when $m_{1}$=0.1. All the results are consistent with the upper bound ($g<6.6\times10^{-11}\ {\rm GeV^{-1}}$, i.e. $g_{11}<6.6$) set by the CAST experiment.

## Full text

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## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/1906.00357/full.md

## References

42 references — full list in the complete paper: https://tomesphere.com/paper/1906.00357/full.md

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Source: https://tomesphere.com/paper/1906.00357