Symmetry-Breaking Effects on Form Factors and Observables in B K0*(1430)μ+μ- Decay

Abstract

In the heavy-quark and large-energy limits, symmetry relations reduce the number of independent form factors governing heavy-to-light B-meson decays. Exploiting these relations, the form factors can be parametrized while systematically incorporating symmetry-breaking corrections from perturbative QCD. Using vertex renormalization together with light-cone distribution amplitudes, we compute the vertex and hard-spectator contributions for the B K0*(1430) transition. We then analyze the impact of these form factors on physical observables, including the branching ratio and lepton polarization asymmetries (PL, PN), in B K0*(1430)μ+μ-. Our results indicate that perturbative corrections induce modest shifts of 3\% in both the branching ratio and the normal lepton polarization asymmetry. Consequently, any significant deviation observed experimentally from these predictions would provide a clear signal of potential New Physics effects.