Assessing Lepton Flavor Universality Violations in Semileptonic Decays

Abstract

In light of recent measurements suggesting potential lepton flavor universality violations in semileptonic decays at collider experiments, this article provides a concise study of tree- and loop-level B-hadron semileptonic decays, b c l l and b s l+ l-. We provide predictions for lepton flavor violating observables, RJ/ and Rηc, across the entire q2 range. Our study employs the Relativistic Independent Quark Model (RIQM), highlighting a model-dependent approach to these observables. We compare our model's predictions with existing lattice predictions, demonstrating the strong applicability of the RIQM framework in describing Bc decays. Additionally, we reassess global averages for RD(D*) and RK(K*) in semileptonic transitions. With the upcoming experimental upgrades and the anticipated Run 3 data on Bc meson decays, rapid confirmation of these quantities could indicate significant evidence of physics beyond the Standard Model, thereby opening new pathways for understanding the complex flavor dynamics in B meson decays.