Exploring the exclusive decay B+ ω+ with light-cone sum rules

Abstract

In this paper, we calculate the Cabibbo-Kobayashi-Maskawa matrix element |Vub| by the semileptonic decay B+ ω+. For the transition form factors (TFFs) A1(q2), A2(q2), and V(q2) of B+ ω, we employ the QCD light-cone sum rules method for calculation, and by constructing the correlation function using left-handed chiral current, we make the δ1-order twist-2 light-cone distribution amplitudes (LCDA) φ\| 2;ω(x,μ) dominate the contribution, in which the twist-2 LCDA φ\| 2;ω(x,μ) is constructed by the light-cone harmonic oscillator model. Then, we obtain A1(0)=0.209+0.049-0.042, A2(0)=0.206+0.051-0.042, and V(0)=0.258+0.058-0.048 at the large recoil region. Two important ratios of TFFs are rV=1.234-0.322+0.425 and r2=0.985-0.274+0.347. After extrapolating TFFs to the whole physical q2 region by a simplified z(q2,t)-series expansion, we obtain the differential decay width and branching fraction B(B+ ω+)=(1.35+0.02+1.22-0.03-0.66)× 10-4, which show good agreement with BABAR and Belle Collaborations. Finally, we extract the |Vub| by using the BExp(B+ ω+) result from the BABAR Collaboration, which leads to |Vub|=(3.66+0.12+1.26-0.17-0.95)× 10-3.

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