Vector transition form factors of the N K*+ and N K* 10*- in the SU(3) chiral quark-soliton model

Abstract

We investigate the vector transition form factors of the nucleon and vector meson K* to the pentaquark baryon Theta+ within the framework of the SU(3) chiral quark-soliton model. We take into account the rotational 1/Nc and linear m s corrections, assuming isospin symmetry and employing the symmetry-conserving quantization. It turns out that the leading-order contributions to the form factors are almost cancelled by the rotational corrections. Because of this, the flavor SU(3) symmetry-breaking terms yield sizeable effects on the vector transition form factors. In particular, the main contribution to the electric-like transition form factor comes from the wave-function corrections, which is a consequence of the generalized Ademollo-Gatto theorem derived in the present work. We estimate with the help of the vector meson dominance the K* vector and tensor coupling constants for the Theta+: gK*N=0.74 - 0.87 and fK*N=0.53 - 1.16. We argue that the outcome of the present work is consistent with the null results of the CLAS experiments in the reactions gamma n -> K- Theta+ and gamma p ->barK0 Theta+. The results of the present work are also consistent with the recent experiments at KEK. In addition, we present the results of the 10 NK* transition form factors and its K*N10 coupling constants.