Transverse-momentum-dependent wave functions with Glauber gluons in B π π, decays

Abstract

We investigate the Glauber-gluon effect on the B π π and decays, which is introduced via a convolution of a universal Glauber phase factor with transverse-momentum-dependent(TMD) meson wave functions in the kT factorization theorem. For an appropriate parametrization of the Glauber phase, it is observed that a TMD wave function for the pion ( meson) with a weak (strong) falloff in parton transverse momentum kT leads to significant (moderate) modification of the B0 π0 π0 (B0 0 0) branching ratio: the former (latter) is enhanced (reduced) by about a factor of 2 (15\%). This observation is consistent with the dual role of the pion as a massless Nambu-Goldstone boson and as a q q bound state, which requires a tighter spatial distribution of its leading Fock state relative to higher Fock states. The agreement between the theoretical predictions and the data for all the B π π and 0 0 branching ratios is then improved simultaneously, and it is possible to resolve the B π π puzzle.