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Main Authors: Demidov, S. V., Gorbunov, D. S., Polonski, A. L.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.17652
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author Demidov, S. V.
Gorbunov, D. S.
Polonski, A. L.
author_facet Demidov, S. V.
Gorbunov, D. S.
Polonski, A. L.
contents In recent article [PhysRevD.109.055041 (2024)] it has been argued that production of dark photons -- hypothetical massive vectors -- in nuclear reactors via mixing with the visible photons is considerably enhanced (by a factor of 10) due to Compton scattering of the latter. We revisit the production of dark photons in the reactor environment and find that although the scattering of photons indeed leads to a larger number of produced dark photons, the overall enhancement is considerably smaller than what has been obtained in Ref. [PhysRevD.109.055041 (2024)]. Our findings are validated using GEANT simulations, which take into account oscillations between ordinary and visible photons and interaction of the latter with matter. The correction to the limit on mixing parameter between dark and visible photons is expected to be below 30% for all masses. It's application must be accompanied with an update on the original spectrum of photons produced in nuclear reactions inside the nuclear reactor.
format Preprint
id arxiv_https___arxiv_org_abs_2512_17652
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Only slightly "Amplifying nonresonant production of dark sector particles in scattering dominance regime''
Demidov, S. V.
Gorbunov, D. S.
Polonski, A. L.
High Energy Physics - Phenomenology
In recent article [PhysRevD.109.055041 (2024)] it has been argued that production of dark photons -- hypothetical massive vectors -- in nuclear reactors via mixing with the visible photons is considerably enhanced (by a factor of 10) due to Compton scattering of the latter. We revisit the production of dark photons in the reactor environment and find that although the scattering of photons indeed leads to a larger number of produced dark photons, the overall enhancement is considerably smaller than what has been obtained in Ref. [PhysRevD.109.055041 (2024)]. Our findings are validated using GEANT simulations, which take into account oscillations between ordinary and visible photons and interaction of the latter with matter. The correction to the limit on mixing parameter between dark and visible photons is expected to be below 30% for all masses. It's application must be accompanied with an update on the original spectrum of photons produced in nuclear reactions inside the nuclear reactor.
title Only slightly "Amplifying nonresonant production of dark sector particles in scattering dominance regime''
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2512.17652