Prospect for measurement of CP-violating parameters of Bs0 φγ at the Tera Z factory
Abstract
b sγ transition is a critical flavor-changing neutral current (FCNC) process that could be used to probe CP violation (CPV) and new physics (NP). We quantify the anticipated precision for measuring Bs0 φγ at the CEPC Z pole operation, showing that the relative statistical uncertainty could be as low as 0.16\%, improved by approximately two orders of magnitude compared to existing measurements. Additionally, we perform a time-dependent analysis of the Bs0 φγ decay, accounting for Bs0/Bs0 mixing extract the mixing-induced and CP-violating parameters Aφγ, Cφγ and Sφγ. Using central value from LHCb measurement as input, we evaluate the anticipated accuracy of measurements of these parameters. The projected statistical uncertainties are σAφγ^stat = 0.021, σCstat = 0.0092 and σSstat = 0.0096, and the systematic uncertainties are σAφγ^syst = 0.035, σCsyst = 0.0027 and σSsyst = 0.0064. Furthermore, the 1σ sensitivity boundaries for NP in this study are found to be Aφγ < -0.05 or Aφγ > 0.15, Cφγ < -0.02 or Cφγ > 0.04, and Sφγ < -0.04 or Sφγ > 0.04. We also conduct a relevant detector optimization study by establishing the correlation between the anticipated precision and the intrinsic resolution of the ECAL, as well as the performance of the PID system.
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