Implication of RD(*) anomalies on semileptonic decays of b and b baryons

Abstract

The flavor changing decays of heavy bottom quarks to the corresponding lighter quarks (u, c and s) in various B-meson decays via charged current and neutral current semileptonic transitions have emerged as promising candidates to explore the physics beyond the standard model. Experimentally the lepton flavor universality violation in b (c,u)\,l\, and b s\,l+ l- transitions have been reported to a higher precision. The measurements of the lepton flavor violating ratios such as RD(*), RJ/ and RK(*) are observed to deviate from the standard model expectations at the level of 1.4σ, 2.5σ, 1.5σ, 2.4σ and 2.2σ respectively. Motivated by these anomalies, we investigate the lepton flavor universality violation in b c l and b c l decays. We follow a model independent effective field theory formalism and study the implications of RD(*) anomalies on b c τ and b c τ decay modes. We give predictions of various physical observables such as the ratio of branching ratios, total differential decay rate, forward-backward asymmetry, lepton side polarization fraction and convexity parameter within the standard model and within various new physics scenarios.