Baryon-Meson Sum Rule for b s

Abstract

We derive a robust sum rule among the branching fractions of b and B K() , assuming that right-handed neutrinos are decoupled. Despite the presence of 18 independent Wilson coefficients in the effective Hamiltonian, this relation remains exact. Remarkably, it is found that the coefficients of this baryon-meson sum rule are numerically identical to those of the b c semileptonic sum rule among the branching fractions of b c τ and B D()τ. Once the decay rate of B K is measured, the decay rate of b can be determined in a model-independent manner for new-physics scenarios involving only left-handed neutrino interactions. This clearly demonstrates that observables in baryonic and mesonic b s transitions will serve as a powerful probe for discriminating among new-physics scenarios.