摘要
Properties of the B-meson light-cone wavefunction up to next-to-leading order Fock state expansion are studied by a comparative study of the B → π, K form factors within the kT factorization approach and the light-cone sum rule analysis. The form factors F+,0,T^B→ π and F+,0,T^B→ K are carefully re-calculated up to O(1/mb^2) within the kT factorization approach in the large recoil region. The QCD light-cone sum rule is applicable in the large and intermediate energy regions, and the QCD light-cone sum rule results in Ref. [12] are adopted for such a comparative study. It is found that when the two phenomenological parameters ∧^-∈ [0.50, 0.55] and δ∈ [0.25, 0.30], the results of F+,0,T^B→ π (Q^2 ) and F+,0,T^B→ K(Q ^2) from these two approaches are consistent with each other in the large recoil energy region.
Properties of the B-meson light-cone wavefunction up to next-to-leading order Fock state expansion are studied by a comparative study of the B → π, K form factors within the kT factorization approach and the light-cone sum rule analysis. The form factors F+,0,T^B→ π and F+,0,T^B→ K are carefully re-calculated up to O(1/mb^2) within the kT factorization approach in the large recoil region. The QCD light-cone sum rule is applicable in the large and intermediate energy regions, and the QCD light-cone sum rule results in Ref. [12] are adopted for such a comparative study. It is found that when the two phenomenological parameters ∧^-∈ [0.50, 0.55] and δ∈ [0.25, 0.30], the results of F+,0,T^B→ π (Q^2 ) and F+,0,T^B→ K(Q ^2) from these two approaches are consistent with each other in the large recoil energy region.
基金
Supported by the National Natural Science Foundation of China under Grant No 10805082, and the Natural Science Foundation of Zhongqing City under Grant No 2008BB0298.
