Constraints for the semileptonic B D(*) form factors from lattice QCD simulations of two-point correlation functions

Abstract

In this work we present the first non-perturbative determination of the hadronic susceptibilities that constrain the form factors entering the semileptonic B D(*) transitions due to unitarity and analyticity. The susceptibilities are obtained by evaluating moments of suitable two-point correlation functions obtained on the lattice. Making use of the gauge ensembles produced by the Extended Twisted Mass Collaboration with Nf = 2+1+1 dynamical quarks at three values of the lattice spacing (a 0.062, 0.082, 0.089 fm) and with pion masses in the range 210 - 450 MeV, we evaluate the longitudinal and transverse susceptibilities of the vector and axial-vector polarization functions at the physical pion point and in the continuum and infinite volume limits. The ETMC ratio method is adopted to reach the physical b-quark mass mbphys. At zero momentum transfer for the b c transition we get 0+(mbphys) = 7.58\,(59) · 10-3, 1-(mbphys) = 6.72\,(41) · 10-4 GeV-2, 0-(mbphys) = 2.58\,(17) · 10-2 and 1+(mbphys) = 4.69\,(30) · 10-4 GeV-2 for the scalar, vector, pseudoscalar and axial susceptibilities, respectively. In the case of the vector and pseudoscalar channels the one-particle contributions due to Bc*- and Bc-mesons are evaluated and subtracted to improve the bounds, obtaining: 1-sub(mbphys) = 5.84\,(44) · 10-4 GeV-2 and 0-sub(mbphys) = 2.19\,(19) · 10-2.