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Paper detail

Using Circular Polarisation to Test the Composition and Dynamics of Astrophysical Particle Accelerators

We investigate the production of circularly polarised X and gamma-ray signals in cosmic accelerators such as supernova remnants and AGN jets. Proton-proton and proton-photon collisions within these sites produce a charge asymmetry in the distribution of mesons and muons that eventually leads to a net circular polarisation signal as these particles decay radiatively. We find that the fraction of circular polarisation thus produced is at the level of $ 5 \times 10^{-4}$, regardless of the exact beam spectrum, as long as it is made predominantly of protons. While this fraction is very small, the detection of circular polarisation signals in conjunction with high-energy neutrinos would provide an unambiguous signature of the presence of high-energy protons in cosmic accelerators. In Supernovae shocks in particular, this would indicate the presence of relativistic protons hitting stationary protons and/or low-energy photons in the intergalactic or interstellar medium.

preprint2020arXivOpen access
Céline BoehmCéline DegrandeJakub ScholtzAaron C. Vincent
hep-phastro-ph.HE
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Céline BoehmCéline DegrandeJakub ScholtzAaron C. Vincent

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