Leptoquark-mediated Dirac neutrino mass and its impact on B K and K π decays
Abstract
Right-handed neutrinos R play a crucial role in flavor-changing neutral-current processes with missing energy, such as b s + E and d s + E , where Belle-II reports unexpectedly large branching fraction in B K decays. Assuming R is the partner of the active neutrino L in the standard model, a Dirac-type neutrino framework emerges. We investigate a scenario of radiative Dirac neutrino mass generation in a scalar leptoquark (LQ) model with a global U(1)X symmetry to suppress Majorana mass, tree-level Dirac mass, and diquark couplings. The simplest LQ realization consists of two S1 = (3,1,-1/3) LQs with distinct U(1)X charges. A non-Casas-Ibarra parametrization is proposed to match neutrino data with fewer model parameters. Imposing current experimental constraints from meson mixing and lepton flavor-violating processes, we find that right-handed neutrino effects can significantly enhance B K(*) and K+ π+ . Additionally, the model predicts excesses in RD from B Dτ that remain within 1σ of current experimental data.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.