Searching for long-lived axion-like particles via displaced vertices at the HL-LHC

Abstract

Axion-like particles (ALPs) are well-motivated extensions of the standard model (SM) that appear in numerous new physics scenarios. In this paper, we concentrate on searches for long-lived ALPs predicted by the photophobic scenario at the HL-LHC with the center-of-mass energy s=14 TeV and the integrated luminosity L= 3 ab-1. We consider the process pp γ a with the ALP a decaying into a pair of displaced charged leptons and perform a detailed analysis of two types of signals: π+ π- γ E-10.5 mu/T and + - γ E-10.5 mu/T . For the π+ π- γ E-10.5 mu/T signal, we find that the prospective sensitivities of the HL-LHC can reach gaWW∈ [8.72 × 10-3, 6.42 × 10-2] TeV-1 for the ALP mass ma ∈ [4, 10] GeV. While for the + - γ E-10.5 mu/T signal, the HL-LHC can probe a broader parameter space, with the sensitivities covering ma ∈ [4, 10] GeV and gaWW ∈ [4.17 × 10-3, 2.00 × 10-1] TeV-1. These long-lived searches complement some previous prompt decay studies from LEP and LHC experiments, extending the parameter space explored by the LHCb collaboration. Our results show that the HL-LHC has significant potential to probe long-lived ALPs via their displaced vertex signatures.

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