# Pion-induced production of hidden-charm pentaquarks   $P_{c}(4312),P_{c}(4440)$, and $P_{c}(4457)$

**Authors:** Xiao-Yun Wang, Jun He, Xu-Rong Chen, Quanjin Wang, Xinmei Zhu

arXiv: 1906.04044 · 2019-09-17

## TL;DR

This study investigates pion-induced production of hidden-charm pentaquarks using an effective Lagrangian approach, explaining experimental cross sections and suggesting further high-precision experiments to confirm these states.

## Contribution

It provides a theoretical analysis of hidden-charm pentaquark production via pion-induced reactions, incorporating Reggeized meson exchange and matching experimental data.

## Key findings

- Experimental cross sections are well explained by Reggeized t-channel contributions.
- Estimated branching ratios for P_c states to J/ψ N and π N are small.
- Differential cross sections show distinct angular dependence, aiding experimental identification.

## Abstract

The production of the hidden-charm pentaquarks $P_{c}$ via pion-induced reaction on a proton target is investigated within an effective Lagrangian approach. Three experimentally observed states, $P_c(4312)$, $P_c(4440)$, and $P_c(4457)$, are considered in the calculation, and the Reggeized $t$-channel meson exchange is considered as main background for the reaction $\pi ^{-}p\rightarrow J/\psi n$. The numerical results show that the experimental data of the total cross section of the reaction $\pi^{-}p\rightarrow J/\psi n$ at $W\simeq 5$ GeV can be well explained by contribution of the Reggeized $t$ channel with reasonable cutoff. If the branching ratios $Br[P_{c}\rightarrow J/\psi N]\simeq 3\%$ and $Br[P_{c}\rightarrow \pi N]\simeq 0.05\%$ are taken, the average value of the cross section from the $P_{c}(4312)$ contribution is about 1.2 nb/100 MeV, which is consistent with existing rude data at near-threshold energies. The results indicate that the branching ratios of the $P_{c}$ states to the $J/\psi N$ and $\pi N$ should be small. The shape of differential cross sections shows that the Reggeized $t$-channel provides a sharp increase at extreme forward angles, while the differential cross sections from the $P_{c}$ states contributions are relatively flat. High-precision experimental measurements on the reaction $\pi ^{-}p\rightarrow J/\psi n$ at near-threshold energies are suggested to confirm the LHCb hidden-charm pentaquarks as genuine states, and such experiments are also helpful to understand the origin of these resonance structures.

## Full text

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## Figures

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## References

64 references — full list in the complete paper: https://tomesphere.com/paper/1906.04044/full.md

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Source: https://tomesphere.com/paper/1906.04044