Abstract
The photoproduction of $\gamma p \to K^+ \Sigma^0(1385)$ is investigated based on an effective Lagrangian approach using the tree-level Born approximation, with the purpose of understanding the reaction mechanisms and resonance contents and their associated parameters in this reaction. In addition to the $t$-channel $K$ and $K^\ast(892)$ exchanges, $s$-channel nucleon ($N$) exchange, $u$-channel $\Lambda$ exchange, and generalized contact term, the exchanges of a minimum number of $N$ and $\Delta$ resonances in the $s$ channel are taken into account in constructing the reaction amplitudes to describe the experimental data. It is found that the most recent differential cross-section data from the CLAS Collaboration can be well reproduced by including one of the $N(1895){1/2}^-$, $\Delta(1900){1/2}^-$, and $\Delta(1930){5/2}^-$ resonances. The reaction mechanisms of $\gamma p \to K^+ \Sigma^0(1385)$ are discussed in detail, and the predictions of the beam and target asymmetries for this reaction are given. The cross sections of $\gamma p \to K^0 \Sigma^+(1385)$ are shown to be able to further constrain the theoretical models and pin down the resonance contents for $\gamma p \to K^+ \Sigma^0(1385)$.
Highlights
The study of nucleon resonances (NÃ’s) and Δ resonances (ΔÃ’s) has always been of great interest in hadron physics, since a deeper understanding of N and Δ resonances is essential to get insight into the nonperturbative regime of quantum chromodynamics
I, the reaction γp → KþΣ0ð1385Þ was investigated in Refs. [8,10] within hadronic models based on effective Lagrangian approaches
In addition to the t-channel K and KÃð892Þ exchanges, s-channel N exchange, u-channel Λ exchange, and generalized contact term, we introduce a minimum number of N and Δ resonances in the s channel in constructing the reaction amplitudes to describe the data
Summary
The study of nucleon resonances (NÃ’s) and Δ resonances (ΔÃ’s) has always been of great interest in hadron physics, since a deeper understanding of N and Δ resonances is essential to get insight into the nonperturbative regime of quantum chromodynamics. [8,10] eight or nine resonances (among tens of resonances predicated by a quark model calculation [9]) were considered; (ii) in the present work the masses and widths of the resonances are fixed to the values advocated by the Particle Data Group (PDG) [12], while in Refs. [8,10] the masses of the resonances were taken from a quark model calculation [9] and the widths for all of the resonances were set to a common value of 300 or 500 MeV, respectively; (iii) in the present work the resonance couplings are treated as parameters to be determined by fits to the data, while in.
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