Determination of B-meson distribution amplitudes from B π,K,D transition form factors

Abstract

Recent work on B π, K and B D form factors from lattice QCD and light-cone sum rules has made it possible to constrain the inverse moment λB of the B-meson light-cone distribution amplitudes by performing a global fit of B π,K,D form factors. We have compiled the B π,K,D form factors calculated by the HPQCD, MILC, and RBC/UKQCD collaborations in the large q2 region. By employing an three-parameter ansatz of the B-meson light-cone distribution amplitudes, we express the B π,K,D form factors at q2=0 that are calculated from light-cone sum rules, in terms of the inverse moment λB of the leading-twist B-meson light-cone distribution amplitude. In the B π ν channel, we also include the available q2-binned experimental data from the BaBar, Belle, and Belle~II collaborations. Using the Bourrely-Caprini-Lellouch parametrization, we perform a global fit and obtain λB=217(19)-17+82~MeV and |Vub|=3.68(13)-1+0×10-3. The second uncertainty is obtained by constraining λB>200 MeV and varying the inverse logarithmic moments σ1∈[-0.7,0.7] and σ2∈[-6,6], which represents the model-dependent uncertainty from the B-meson light-cone distribution amplitudes. When taking into account λB and σ1 as fitting parameters simultaneously, the intervals of our preditions are λB=[208, 324]~MeV and σ1=[-0.7, 0.27].