Nucleon and resonances in γ n K+- photoproduction

Abstract

The most recent data on beam asymmetries, , and beam-target asymmetries, E, from the CLAS Collaboration, together with the previous data on differential cross sections and beam asymmetries from the CLAS and LEPS Collaborations, for the γ n K+- reaction are studied based on an effective Lagrangian approach in the tree-level Born approximation. The t-channel K and K(892) exchanges, the u-channel exchange, the interaction current, and the exchanges of N, , and their excited states in the s channel are considered in constructing the reaction amplitudes to describe the available experimental data. The reaction mechanisms of γ n K+- are analyzed, and the associated resonances' parameters are extracted. The numerical results show that the exchange and the N(1710)1/2+, N(1880)1/2+, N(1900)3/2+, and (1920)3/2+ resonance exchanges in the s-channel dominate the γ n K+- reaction in the lower energy region, and the t-channel K(892) exchange plays a crucial role at forward angles in the higher energy region.