# Charmed baryon$-$nucleon interaction

**Authors:** H. Garcilazo, A. Valcarce, T.F. Carames

arXiv: 1907.05022 · 2019-07-17

## TL;DR

This paper compares various theoretical approaches to charmed baryon-nucleon interactions, revealing qualitative agreement and highlighting differences in short-range dynamics and channel coupling, with implications for charmed hypernuclei.

## Contribution

It provides a comprehensive comparison of quark models, hadronic models, and lattice QCD results for charmed baryon-nucleon interactions, clarifying their similarities and differences.

## Key findings

- Qualitative agreement among approaches.
- Quark models suggest soft interactions without bound states.
- Short-range dynamics show slightly larger repulsion in specific channels.

## Abstract

We present a comparative study of the charmed baryon$-$nucleon interaction based on different theoretical approaches. For this purpose, we make use of i) a constituent quark model tuned in the light-flavor baryon$-$baryon interaction and the hadron spectra, ii) existing results in the literature based both on hadronic and quark-level descriptions, iii) (2+1)-flavor lattice QCD results of the HAL QCD Collaboration at unphysical pion masses and their effective field theory extrapolation to the physical pion mass. There is a general qualitative agreement among the different available approaches to the charmed baryon$-$nucleon interaction. Different from hadronic models based on one-boson exchange potentials, quark$-$model based results point to soft interactions without two-body bound states. They also support a negligible channel coupling, due either to tensor forces or to transitions between different physical channels, $\Lambda_c N - \Sigma_c N$. Short-range gluon and quark-exchange dynamics generate a slightly larger repulsion in the $^1S_0$ than in the $^3S_1$ $\Lambda_c N$ partial wave. A similar asymmetry between the attraction in the two $S$ waves of the $\Lambda_c N$ interaction also appears in hadronic approaches. A comparative detailed study of Pauli suppressed partial waves, as the $^1S_0 (I=1/2)$ and $^3S_1 (I=3/2)$ $\Sigma_c N$ channels, would help to disentangle the short-range dynamics of two-baryon systems containing heavy flavors. The possible existence of charmed hypernuclei is discussed.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1907.05022/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/1907.05022/full.md

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Source: https://tomesphere.com/paper/1907.05022