Constraints on SMEFT operators from Z μ μ bb decay
Abstract
The Standard Model Effective Field Theory (SMEFT) provides a systematic framework to probe indirect effects of heavy new physics via precision measurements. While SMEFT constraints have been extensively studied using purely leptonic Z decays and inclusive Z production, mixed leptonic-hadronic modes remain largely unexplored. In this work, we analyze Z μμ bb decays within the SMEFT framework, deriving constraints on dimension-six operators that affect four-fermion interactions between leptons and bottom quarks, as well as Z-fermion couplings. Signal and background events are simulated with state-of-the-art Monte Carlo tools, including detector effects such as b-tagging, and limits on the relevant Wilson coefficients are extracted using kinematic distributions and a profile likelihood approach. Our results provide complementary constraints to existing SMEFT studies and yield the first process-specific limits on flavor-resolved four-fermion operators involving muons and bottom quarks from Z decays.
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