Heavy Pseudoscalar Leading-Twist Distribution Amplitudes within QCD Theory in Background Fields

Abstract

In this paper, we study the leading-twist distribution amplitude (DA) of the heavy pseudoscalars (HPs), such as ηc, ηb and Bc, within the QCD theory in the background fields. New sum rules up to dimension-six condensates for both the HP decay constants and their leading-twist DA moments are presented. From the sum rules for the HP decay constants, we obtain fηc = 453 4 MeV, fBc = 498 14 MeV, and fηb = 811 34 MeV. Basing on the sum rules for the HPs' leading-twist DA moments, we construct a new model for the ηc, ηb and Bc leading-twist DAs. Our present HP DA model can also be adaptable for the light pseudo-scalar DAs, such as the pion and kaon DAs. Thus, it shall be applicable for a wide range of QCD exclusive processes. As an application, we apply the ηc leading-twist DA to calculate the Bc ηc transition form factor f+Bc ηc(q2). At the maximum recoil region, we obtain f+Bc ηc(0) = 0.612+0.053-0.052. After further extrapolating the TFF f+Bc ηc(q2) to its allowable q2 region, we predict the branching ratio for the semi-leptonic decay Bc ηc l . We obtain B(Bc ηc l )=(7.70+1.65-1.48) × 10-3 for massless leptons, which is consistent with the LCSRs estimation obtained in the literature.