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Article
Report number arXiv:2203.08663 ; UWThPh 2023-22 ; FERMILAB-PUB-22-170-V
Title Neutron stars as photon double-lenses: Constraining resonant conversion into ALPs
Author(s) Bondarenko, Kyrylo (IFPU, Trieste ; SISSA, Trieste ; INFN, Trieste) ; Boyarsky, Alexey (Leiden U.) ; Pradler, Josef (Vienna, OAW ; Vienna U. ; CERN) ; Sokolenko, Anastasia (Fermilab ; Chicago U., KICP)
Publication 2023-10-11
Imprint 2022-03-16
Number of pages 7
In: Phys. Lett. B 846 (2023) 138238
DOI 10.1016/j.physletb.2023.138238 (publication)
Subject category astro-ph.HE ; Astrophysics and Astronomy ; hep-ph ; Particle Physics - Phenomenology
Abstract Axion-photon conversion is a prime mechanism to detect axion-like particles that share a coupling to the photon. We point out that in the vicinity of neutron stars with strong magnetic fields, magnetars, the effective photon mass receives comparable but opposite contributions from free electrons and the radiation field. This leads to an energy-dependent resonance condition for conversion that can be met for arbitrary light axions and leveraged when using systems with detected radio component. Using the magnetar SGR J1745-2900 as an exemplary source, we demonstrate that sensitivity to $|g_{a\gamma}| \sim 10^{-12}\,\rm{GeV^{-1}}$ or better can be gained for $m_a \lesssim 10^{-6}\,\rm eV$, with the potential to improve current constraints on the axion-photon coupling by more than one order of magnitude over a broad mass range. With growing insights into the physical conditions of magnetospheres of magnetars, the method hosts the potential to become a serious competitor to future experiments such as ALPS-II and IAXO in the search for axion-like particles.
Copyright/License publication: © 2023-2024 US government (License: CC BY 4.0), sponsored by SCOAP³
preprint: (License: CC BY 4.0)



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 Record created 2023-10-26, last modified 2024-04-30


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