Three-body molecules $\bar{D}\bar{D}^{\ast}\Sigma_{c}$- understanding the nature of $T_{cc}$, $P_{c}(4312)$, $P_{c}(4440)$ and $P_{c}(4457)$

TL;DR

This paper investigates three-body molecules involving $ar{D}$, $ar{D}^*$, and $ ext{Σ}_c$ to understand the nature of pentaquark states $P_c$ and the doubly charmed tetraquark $T_{cc}$, predicting bound states and decay properties.

Contribution

It introduces a three-body molecular model linking $P_c$ states and $T_{cc}$, predicting new bound states and their decay widths, providing a novel perspective on their molecular nature.

Findings

Existence of two three-body bound states with specific quantum numbers.

Mass splitting of these states correlates with $P_c(4440)$ and $P_c(4457)$.

Partial decay widths are several MeV, suggesting experimental detectability.

Abstract

The nature of the three pentaquark states, $P_{c}(4312)$, $P_{c}(4440)$ and $P_{c}(4457)$, discovered by the LHCb Collaboration in 2019, is still under debate, although the $\bar{D}^{(\ast)}\Sigma_{c}$ molecular interpretation seems to be the most popular. In this work, by adding a $\bar{D}$ meson into the $\bar{D}^{\ast}\Sigma_{c}$ pair, we investigate the mass and decay width of the three-body molecules $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ and explore the correlation between the existence of the $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ molecules with the existence of $\bar{D}^{(\ast)}\Sigma_{c}$ and $\bar{D}^{\ast}\bar{D}$ two-body molecules. The latter can be identified with the doubly charmed tetraquark state $T_{cc}$ recently discovered by the LHCb Collaboration. Based on the molecular nature of $P_{c}(4312)$, $P_{c}(4440)$, $P_{c}(4457)$, and $T_{cc}$, our results indicate that there exist two three-body bound states of $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ with $I(J^{P})=1(1/2^{+})$ and $I(J^{P})=1(3/2^{+})$, and binding energies $37.24$ MeV and $29.63$ MeV below the $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ mass threshold. In addition, we find that the mass splitting of these two three-body molecules are correlated to the mass splitting of $P_{c}(4440)$ and $P_{c}(4457)$, which offers a non-trivial way to reveal the molecular nature of these states. The partial widths of two $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ molecules decaying into $J/\psi p \bar{D}$ and $J/\psi p \bar{D}^{\ast}$ are found to be several MeV. We recommend the experimental searches for the $\bar{D}\bar{D}^{\ast}\Sigma_{c}$ molecules in the $J/\psi p \bar{D}$ and $J/\psi p \bar{D}^{\ast}$ invariant mass distributions.