Event characterization of dark bosons via exotic Higgs decays with final states of displaced dimuons in high luminosity era of the LHC
Abstract
We investigate the potential reach of a search for a long-lived/prompt dark vector boson ZD, also called dark Z, and a prompt dark Higgs boson hD through exotic decays of the observed Higgs boson h into either ZDZD, hDhD, or ZZD with Z being the hypercharge gauge boson. The ZD production through the Higgs portal is completed via one of two mechanisms, kinetic mixing of ZD with Z and the mixing of hD with h. All production modes of h are considered, while the branching fractions are calculated in Monte Carlo simulation using the MadGraph5\aMC@NLO v2.7.2 framework. We focus on a final state of multiple dimuons, displaced up to 7500 mm, where the muons can be reconstructed without vertex constraint using data from ATLAS and CMS detectors to be collected in Run~3. Integrated luminosities of 137, 300, and 3000 fb-1 for Run~2, Run~3, and high luminosity run (HL-LHC), respectively, are used for estimating the expected search sensitivity of the Large Hadron Collider to each of the decay modes.
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