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| Main Authors: | , , |
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| Format: | Preprint |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2404.11078 |
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Table of Contents:
- In this work, the production of the hidden-strange pentaquarklike state $N^{*}(2080)$ via the $π^{-} p$ scattering process is studied by the effective Lagrangian approach. Concretely, we consider the $ρ$ meson exchange of $t$-channel and the nucleon exchange of $u$-channel, which are treated as the background terms, and take into account the contribution of the $N^{*}(2080)$ via the $s$-channel as a signal term. By global fitting of the total and differential cross sections of the $π^{-} p\rightarrowϕn$ process, it is shown that the $N^{*}(2080)$ contributes an obvious peak at the threshold energy point of the differential cross section at the forward angle ($\cosθ= 1$), which provides clues to the detection of the $N^{*}(2080)$ by the $π^{-} p$ scattering process. However, due to the limited accuracy of the experimental data, it is an objective limitation for us to determine the properties of the $N^{*}(2080)$ by the $π^{-} p$ scattering process. Therefore, more accurate experimental measurements of the $π^{-} p\rightarrowϕn$ reaction are highly desirable, and we have also proposed that correlation measurements can be performed on J-PARC, AMBER, and future HIKE and HIAF meson beam experiments.