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Shimmering gravitons in the gamma-ray sky

Sabir Ramazanov, Rome Samanta, Georg Trenkler, F. Urban

2023Journal of Cosmology and Astroparticle Physics18 citationsDOIOpen Access PDF

Abstract

Abstract What is the highest energy at which gravitons can be observed? We address this question by studying graviton-to-photon conversion — the inverse-Gertsenshtein effect — in the magnetic field of the Milky Way. We find that above ∼ 1 PeV the effective photon mass grows large enough to quench the conversion rate. For sub-PeV energies, the induced photon flux is comparable to the sensitivity of LHAASO to a diffuse γ -ray background, but only for graviton abundances of order Ω gw h 2 0 ∼ 1. In the future, owing to a better understanding of γ -ray backgrounds, larger effective areas and longer observation times, sub-PeV shimmering gravitons with a realistic abundance of Ω gw h 2 0 ∼ 0.01 could be detected. We show how such a large abundance is achieved in a cosmologically-motivated scenario of post-recombination superheavy dark matter decay. Therefore, the sub-PeV range might be the ultimate energy frontier at which gravitons can be observed.

Topics & Concepts

GravitonPhysicsMilky WayAstrophysicsDark matterPhotonRange (aeronautics)Gamma rayAstronomyParticle physicsGravitationGalaxyQuantum mechanicsMaterials scienceComposite materialCosmology and Gravitation TheoriesAstrophysics and Cosmic PhenomenaDark Matter and Cosmic Phenomena
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