Prospects for Measuring CP-Violation in Bs0 → φ μ+μ- via Time-Dependent Angular Analysis

Abstract

This work investigates the prospects for performing a time-dependent angular analysis of Bs0 → φ μ+μ- decays at hadron colliders, and introduces new optimised angular observables associated with Bs0-mixing in the decay rate. The time-dependent normalised decay rate and corresponding probability density function is presented both for when the flavour of the Bs0 meson at production is tagged and when it is untagged. The normalised angular terms linked to Bs0-mixing in the tagged (untagged) case are denoted Zi (Hi), and their optimised counterparts as Qi (Mi). The expected sensitivities of these observables at the end of Run 3, Run 4, and Run 5 of the LHC are determined using pseudoexperiments generated with a decay-time resolution, background level, and signal yield similar to those reported by the LHCb collaboration. It is found that all observables can be extracted with Run 3 statistics, and that the Hi and Zi observables have similar sensitivity, despite the former being suppressed by mixing terms. Moreover, the angular observables only accessible via flavour tagging, such as the equivalent of P5 in the B0s system, are found to exhibit sensitivities comparable to current measurements in B0 → K 0 μ+μ- decays once Run 5 datasets are available. Fits to the observables to extract the Wilson coefficients show a significant increase in precision when either the observables accessible via time-dependent analysis, or flavour tagging, are included. A marked increase in sensitivity to CP-violating short-distance effects is observed for a subset of the new optimised Mi and Qi observables.

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