Prospects for probing light photophobic axion-like particles via displaced vertex signals at the CEPC
Abstract
In recent years, long-lived particles (LLPs) have attracted increasing attention in searches for physics beyond the Standard Model (SM). In this paper, we investigate the discovery prospects for light long-lived ALPs predicted by the photophobic ALP scenario via displaced vertex signals at the CEPC with the center-of-mass energy s=91.2 GeV and integrated luminosity L= 100 ab-1. After comparing several possible single-production processes of the photophobic ALP, we focus on the dominant process e+ e- Z a γ , with the ALP a subsequently decaying into a pair of displaced charged leptons. Dedicated Monte Carlo simulations are performed for the μ+ μ- γ and τh+ τh- E-10.5 mu/T γ signals. For the μ+μ-γ signal, the CEPC is sensitive to the parameter region gaWW ∈ [1.27×10-3,6.80×10-1]~TeV-1 for ma ∈ [1,4]~GeV. For the τh+τh-E-10.5 mu/Tγ signal, the accessible region is gaWW ∈ [7.00×10-4,9.40×10-3]~TeV-1 with ma ∈ [4,9]~GeV. These results demonstrate the strong potential of the CEPC to explore light long-lived ALPs via displaced vertex signals, providing complementary coverage to existing searches at the LEP and LHC, as well as to the projected reach of the HL-LHC.
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