Prospect for measurement of C\!P-violating observables in Bs0 Ds K decays at a future Z factory

Abstract

A precise determination of the CKM angle γ from Bs0 oscillations in Bs0 Ds K decays offers a critical test of the Standard Model and probes for new physics. We present a comprehensive study on the prospects of measuring γ at a future Tera-Z factory, utilizing the baseline detector concept of the Circular Electron Positron Collider (CEPC). A two-dimensional simultaneous fit framework, incorporating flavor tagging, decay time resolution modeling, and acceptance corrections, is developed using full Monte Carlo simulations of Bs0 Ds ( K K π) K decays and inclusive background processes. The effective flavor tagging power reaches 23.6\%, while the decay time resolution is determined to be 26\,fs. Projecting to full statistics of signal events across three dominant Ds- decay channels, we estimate a statistical precision of σ(γ) = 0.69, which corresponds to 4.1 Tera-Z boson equivalent data. This study establishes the feasibility of sub-degree level γ measurements at a Z-factory, highlighting its unique advantages in time-dependent C\!P violation studies through ultra-precise vertexing and background suppression capabilities.

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