Photoproduction of possible pentaquark states 0b(5912) and 0b(5920) in the γpb0(*)B+ reactions

Abstract

In this work, we report on a theoretical study of possible pentaquark states 0b(5912) and 0b(5920) in the γpb0(*)B+ reactions within an effective Lagrangian approach. In addition to the contributions from the s-channel nucleon pole and t-channel B*- exchange, the contact term contribution are also included. Our theoretical approach is based on the chiral unitary theory where the 0b(5912) and 0b(5920) resonances are dynamically generated. Within the coupling constants of the 0b(5912) and 0b(5920) to Bp and B*p channels obtained from chiral unitary theory, the total and differential cross sections of the γpb0(*)B+ are evaluated. Our calculation indicates that the cross section for γpb0(5912)B+ and γpb0(5920)B+ reactions are of the order of 0.0164 nb and 0.00527 nb,respectively. If measured in future experiments, such as Electron-Ion Collider in China (EicC) or US(US-EIC), the predicted total cross sections and specific features of the angular distributions can be used to test the (molecular) nature of the 0b(5912) and 0b(5920) that they may be pentaquark states.