Searching for long-lived dark scalars at the FCC-ee

Abstract

This paper investigates the search for long-lived dark scalars from exotic Higgs boson decays at the Future Circular Collider in its e+e- stage, FCC-ee, considering an integrated luminosity of 10.8 ab-1 collected during the ZH run at a center-of-mass energy s=240 GeV. The work considers Zh events where the Z boson decays leptonically and the Higgs boson h decays into two long-lived dark scalars s which further decay into bottom anti-bottom quark pairs. The analysis is performed using a parametrized simulation of the IDEA detector concept and targets dark scalar decays in the tracking volume, resulting in multiple displaced vertices in the final state. The sensitivity towards long-lived dark scalars at FCC-ee is estimated using an event selection requiring two opposite-charge, same-flavor leptons compatible with the Z boson, and at least two displaced vertices in the final state. The selection is seen to efficiently remove the Standard Model background, while retaining sensitivity for dark scalar masses between ms=20 GeV and ms=60 GeV and mean proper lifetimes cτ between approximately 10 mm and 10 m The results show that the search strategy has potential to probe Higgs to dark scalar branching ratios as low as 10-4 for a mean proper lifetime cτ≈ 1 m. The results provide the first sensitivity estimate for exotic Higgs decays at FCC-ee with the IDEA detector concept, using the common FCC framework.

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