Information on the Pion Distribution Amplitude from the Pion-Photon Transition Form Factor with the Belle and BaBar Data

Abstract

The pion-photon transition form factor (TFF) provides strong constraints on the pion distribution amplitude (DA). We perform an analysis of all existing data (CELLO, CLEO, BaBar, Belle) on the pion-photon TFF by means of light-cone pQCD approach in which we include the next-to-leading order correction to the valence-quark contribution and estimate the non-valence-quark contribution by a phenomenological model based on the TFF's limiting behavior at both Q2 0 and Q2∞. At present, the pion DA is not definitely determined, it is helpful to have a pion DA model that can mimic all the suggested behaviors, especially to agree with the constraints from the pion-photon TFF in whole measured region within a consistent way. For the purpose, we adopt the conventional model for pion wavefunction/DA that has been constructed in our previous paper hw1, whose broadness is controlled by a parameter B. We fix the DA parameters by using the CELLO, CLEO, BABAR and Belle data within the smaller Q2 region (Q2 ≤ 15 GeV2), where all the data are consistent with each other. And then the pion-photon TFF is extrapolated into larger Q2 region. We observe that the BABAR favors B=0.60 which has the behavior close to the Chernyak-Zhitnitsky DA, whereas the recent Belle favors B=0.00 which is close to the asymptotic DA. We need more accurate data at large Q2 region to determine the precise value of B, and the definite behavior of pion DA can be concluded finally by the consistent data in the coming future.