Heavy baryon wave functions, Bakamjian-Thomas approach to form factors, and observables in b c(1 2 ) transitions

Abstract

Motivated by the calculation of observables in the decays b c(1 2 ) , as tests of Lepton Flavor Universality, we present a calculation of form factors in the quark model. Our scheme combines a spectroscopic model, providing the internal wave functions, and the Bakamjian-Thomas relativistic formalism to deduce the wave functions in motion and current matrix elements, that amount in the heavy quark limit to the Isgur-Wise (IW) function. For baryons we meet difficulties using standard spectroscopic models, leading us to propose a simple phenomenological model : a Q-pointlike-diquark model, non-relativistic with harmonic oscillator forces, with a reasonable low-lying spectrum and good slope of the IW function. We extract this slope from Lattice data and find 2 2. We are not able to reproduce the right 2 when using standard linear + Coulomb potential models, both with three quarks Qqq or in a Q-pointlike-diquark picture. These difficulties seem to derive from the high sensitivity of 2 to the structure of the light quark subsystem. After fixing the parameters of our interim model to yield correct spectrum and 2, we compute observables. Bjorken sum rule shows that the inelastic IW function is large, and therefore b c (1 2-, 3 2- ) could be studied at LHCb. Some observables in the τ case present zeroes for specific values of q2 that could be tests of the Standard Model.