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Main Authors: Malyshev, Denys, Zadorozhna, Lidiia, Bidasyuk, Yuriy, Santangelo, Andrea, Ruchayskiy, Oleg
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.22344
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author Malyshev, Denys
Zadorozhna, Lidiia
Bidasyuk, Yuriy
Santangelo, Andrea
Ruchayskiy, Oleg
author_facet Malyshev, Denys
Zadorozhna, Lidiia
Bidasyuk, Yuriy
Santangelo, Andrea
Ruchayskiy, Oleg
contents Axion-like particles (ALPs) are compelling candidates for dark matter and potential portals to new physics beyond the Standard Model. Photons traversing magnetized regions can convert into ALPs, producing characteristic, energy-dependent absorption features in astrophysical spectra. The probability of such conversions depends sensitively on both the photon energy and the properties of the intervening magnetic fields. Most existing searches have focused on individual astrophysical sources, but uncertainties in the structure and strength of cosmic magnetic fields have limited their reach. Recently, we have demonstrated that active galactic nuclei (AGNs) observed through galaxy clusters provide especially promising targets for ALP searches. By stacking multiple AGN-cluster sightlines, one can average over poorly known magnetic field configurations in galaxy clusters and recover a distinctive ALP-induced spectral suppression, thereby significantly enhancing sensitivity. In this work, we investigate a possible systematic uncertainty in such analyses: the intrinsic time-variability of AGN spectra. We demonstrate that AGN flux variability is correlated with spectral hardness, and that time-averaging over flaring and quiescent states can potentially mimic the suppression features imprinted by ALP-photon mixing. Our findings imply that the recent constraints remain conservative, and that incorporating detailed spectral variability into stacking analyses can further sharpen the search for axion-like particles.
format Preprint
id arxiv_https___arxiv_org_abs_2509_22344
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle AGN spectral variability across activity states and searches for axion-like particles
Malyshev, Denys
Zadorozhna, Lidiia
Bidasyuk, Yuriy
Santangelo, Andrea
Ruchayskiy, Oleg
High Energy Astrophysical Phenomena
Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
Axion-like particles (ALPs) are compelling candidates for dark matter and potential portals to new physics beyond the Standard Model. Photons traversing magnetized regions can convert into ALPs, producing characteristic, energy-dependent absorption features in astrophysical spectra. The probability of such conversions depends sensitively on both the photon energy and the properties of the intervening magnetic fields. Most existing searches have focused on individual astrophysical sources, but uncertainties in the structure and strength of cosmic magnetic fields have limited their reach. Recently, we have demonstrated that active galactic nuclei (AGNs) observed through galaxy clusters provide especially promising targets for ALP searches. By stacking multiple AGN-cluster sightlines, one can average over poorly known magnetic field configurations in galaxy clusters and recover a distinctive ALP-induced spectral suppression, thereby significantly enhancing sensitivity. In this work, we investigate a possible systematic uncertainty in such analyses: the intrinsic time-variability of AGN spectra. We demonstrate that AGN flux variability is correlated with spectral hardness, and that time-averaging over flaring and quiescent states can potentially mimic the suppression features imprinted by ALP-photon mixing. Our findings imply that the recent constraints remain conservative, and that incorporating detailed spectral variability into stacking analyses can further sharpen the search for axion-like particles.
title AGN spectral variability across activity states and searches for axion-like particles
topic High Energy Astrophysical Phenomena
Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2509.22344