Vector and axial-vector structures of the Theta+

Abstract

We present in this talk recent results of the vector and axial-vector transitions of the nucleon to the pentaquark baryon Theta+, based on the SU(3) chiral quark-soliton model. The results are summarized as follows: K*-N-Theta vector and tensor coupling constants turn out to be gK*N Theta = 0.81 and fK*N Theta=0.84, respectively, and the KN Theta axial-vector coupling constant to be gA* = 0.05. As a result, the total decay width for Theta+ to NK becomes very small: GammaTheta -> NK = 0.71 MeV, which is consistent with the DIANA result GammaTheta -> NK=0.36 +- 0.11 MeV.