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Auteurs principaux: Barbosa, Sergio, Coelho, Matheus, Fichet, Sylvain, da Silveira, Gustavo Gil, Machado, Magno
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2506.10066
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author Barbosa, Sergio
Coelho, Matheus
Fichet, Sylvain
da Silveira, Gustavo Gil
Machado, Magno
author_facet Barbosa, Sergio
Coelho, Matheus
Fichet, Sylvain
da Silveira, Gustavo Gil
Machado, Magno
contents Assuming the existence of an axion-like particle (ALP), beams of relativistic particles emit fluxes of quasi-real ALPs, analogous to the photon fluxes described by Weizsäcker-Williams-type approximations. Consequently, ALP-ALP and ALP-photon collisions can occur at the LHC. We initiate the study of the LHC as an ALP collider, and show that ALP collisions provide competitive probes of certain ALP couplings. We show that ALP fluxes from heavy ions are suppressed relative to those from protons, unlike their photon counterpart. As a result, the most likely processes are ALP-photon collisions occurring in the proton-ion ($p$A) ultraperipheral collisions. Using our implementation of ALP fluxes in simulation tools, we show that ALP-photon collisions in $p$Pb efficiently probe ALP couplings to third generation fermions. LHC data with realistic $p$Pb luminosity can constrain the product of ALP couplings to nucleons and top quarks at the level of $O(0.01$ TeV$^{-1})$. Notably, ALP-photon collisions naturally provide the leading probe of ALP flavor-violating couplings to the top quark. We suggest that the 2016 $p$Pb dataset collected at CMS, ATLAS, and LHCb should be explored for evidence of such collisions.
format Preprint
id arxiv_https___arxiv_org_abs_2506_10066
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The LHC as an Axion-Photon Collider
Barbosa, Sergio
Coelho, Matheus
Fichet, Sylvain
da Silveira, Gustavo Gil
Machado, Magno
High Energy Physics - Phenomenology
Assuming the existence of an axion-like particle (ALP), beams of relativistic particles emit fluxes of quasi-real ALPs, analogous to the photon fluxes described by Weizsäcker-Williams-type approximations. Consequently, ALP-ALP and ALP-photon collisions can occur at the LHC. We initiate the study of the LHC as an ALP collider, and show that ALP collisions provide competitive probes of certain ALP couplings. We show that ALP fluxes from heavy ions are suppressed relative to those from protons, unlike their photon counterpart. As a result, the most likely processes are ALP-photon collisions occurring in the proton-ion ($p$A) ultraperipheral collisions. Using our implementation of ALP fluxes in simulation tools, we show that ALP-photon collisions in $p$Pb efficiently probe ALP couplings to third generation fermions. LHC data with realistic $p$Pb luminosity can constrain the product of ALP couplings to nucleons and top quarks at the level of $O(0.01$ TeV$^{-1})$. Notably, ALP-photon collisions naturally provide the leading probe of ALP flavor-violating couplings to the top quark. We suggest that the 2016 $p$Pb dataset collected at CMS, ATLAS, and LHCb should be explored for evidence of such collisions.
title The LHC as an Axion-Photon Collider
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2506.10066