Light-front holographic distribution amplitudes of pseudoscalar mesons and their application to B-meson decays

Abstract

In this paper the dynamical spin effects of the light-front holographic wavefunctions for light pseudoscalar mesons are studied using two different assumptions. These improved wavefunctions are then confronted with a number of sensitive hadronic observables: the decay constants of π and K mesons, their -moments, the pion-to-photon transition form factor, and the pure annihilation Bs π+ π- and Bd K+K- decays. Taking fπ, fK and their ratio fK/fπ as constraint conditions, the 2 analyses for holographic parameters, including the mass scale parameter λ and effective quark masses, are all consistent with the mass scale which controls the slopes of the light-quark hadronic Regge trajectories. In addition, we also show how the improved light-front holographic distribution amplitudes regulate the end-point divergences which appear in the annihilation amplitudes of B PP decays.