Photoproduction γ p K+(1690) in an effective Lagrangian approach

Abstract

A gauge-invariant model is constructed for the γ p K+(1690) reaction within a tree-level effective Lagrangian approach with the purpose to understand the underlying production mechanisms and to study the resonance contributions in this reaction. In addition to the t-channel K and K exchanges, the s-channel nucleon exchange, and the interaction current, the s-channel nucleon resonance exchanges are also included in constructing the reaction amplitudes to describe the data. It is found that the contributions from the s-channel N(2570)5/2- exchange are required to describe the most recently measured total cross-section data for γ p K+(1690) from the CLAS Collaboration. Further analysis shows that the interaction current dominates the γ p K+(1690) reaction near the threshold as a result of gauge invariance. The t-channel K exchange contributes significantly, while the contributions from the t-channel K exchange as well as the s-channel nucleon exchange turn out to be negligible. The contributions from the s-channel N(2570)5/2- exchange are found to be responsible for the bump structure shown in the CLAS total cross-section data above the center-of-mass energy W ≈ 2.7 GeV. The predictions of the differential cross sections for γ p K+(1690) are shown and discussed, which can provide theoretical guidances for the future experiments.