Leptoquark Flavor Patterns & B Decay Anomalies

Abstract

Flavor symmetries that explain masses and mixings of the standard model fermions dictate flavor patterns for the couplings of scalar and vector leptoquarks to the standard model fermions. A generic feature is that couplings to SU(2)-doublet leptons are suppressed at least by one spurion of the discrete non-abelian symmetry breaking, responsible for neutrino mixing, while couplings to charged lepton singlets can be order one. We obtain testable patterns including those that predominantly couple to a single lepton flavor, or two, or in a skewed way. They induce lepton non-universality, which we contrast to current anomalies in B-decays. We find maximal effects in RD and RD* at the level of 10 percent and few percent, respectively, while leptoquark effects in RK(*) can reach order few× 10 percent. Predictions for charm and kaon decays and μ-e conversion are worked out.