^{*}

liubc@xjtu.edu.cn

^{3}.

In this work, we perform a study of nucleon resonance production in the

To study the properties of nucleon resonance is a central task in hadronic physics. Despite decades of studies of the nucleon resonances, there are still some controversies involving the nature and structure of some nucleon resonances. One outstanding example is the

In recent years, the photoproduction processes are widely employed to investigate the properties of nucleon resonance

In this paper, we present the results for the study of the

The rest of this paper is organized as follows. In Sec.

In our model, the Feynman diagrams for the

Feynman diagrams for the

To calculate the Feynman diagrams shown in Fig.

Coupling constants used in this work. The experimental decay branch ratios are taken from Ref.

As we are not dealing with pointlike particles here, the form factors are necessary to be introduced. In the present work, we choose the following form factor for the baryon exchange diagrams as in Refs.

For

The propagators for the exchanged particles are used as

By using the above effective Lagrangian densities and the propagators, we can get the scattering amplitude of the Feynman diagrams shown in Fig.

With the formulas given in the last section, the total and differential cross sections can be calculated. First, we consider the case where the

Total cross section vs. the beam energy

Now we come to discuss the role of the

In Fig.

Individual contributions of various meson exchanges. The red-dashed, blue-dotted, and gray-dash-dotted lines indicate the contributions of the

Based on the results shown above, it seems that with the current parameters the

Predictions for the

In this work, we investigate the

We acknowledge the support from the National Natural Science Foundation of China under Grants No. 11375137 and No. U1832160, the Natural Science Foundation of Shaanxi Province under Grant No. 2015JQ1003, and the Fundamental Research Funds for the Central Universities.