The expected measurement precision of the branching ratio of the Higgs decaying to the di-photon at the CEPC
Abstract
This paper presents the prospects of measuring σ(e+e- ZH)× Br(H γγ) in 3 Z decay channels Z qq / μ+ μ- / using the baseline detector with s = 240 GeV at the Circular Electron Positron Collider (CEPC) . The simulated Monte Carlo events are generated and scaled to an integrated luminosity of 5.6 ab-1 to mimic the data. Extrapolated results to 20 ab-1 are also shown. The expected statistical precision of this measurement after combining 3 channels of Z boson decay is 7.7\%. With some preliminary estimation on the systematical uncertainties, the total precision is 7.9\%. The performance of CEPC electro-magnetic calorimeter (ECAL) is studied by smearing the photon energy resolution in simulated events in e+e- ZH qqγγ channel. In present ECAL design, the stochastic term in resolution plays the dominant role in the precision of Higgs measurements in H γγ channel. The impact of the resolution on the measured precision of σ(ZH)× Br(ZH qqγγ) as well as the optimization of ECAL constant term and stochastic term are studied for the further detector design.
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