Constraints on Dark Photon and Dark Z Model Parameters in the B and K Meson Decays

Abstract

The study investigates flavor-changing neutral current (FCNC) decays of B and K mesons in the context of a dark U(1)D model with a dark photon/dark Z mass between 10 MeV and 2 GeV. While the model improves the fit to certain decay distributions, such as B K(*) + - and Bs φ μ+ μ- , it is ruled out by stringent experimental constraints, including atomic parity violation, K+ μ+ + invisible , and Bs - Bs mixing. To address these constraints, the model is extended with three modifications; allowing additional invisible decays of ZD , introducing a direct vector coupling of ZD to muons, and including a direct coupling of ZD to both muons and electrons, with fine-tuning to cancel the mixing-induced coupling to electrons. Among these extensions, only the third scenario, involving fine-tuned electron coupling, remains consistent with all experimental constraints.

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