Discovery of the doubly charmed Tcc+ state implies a triply charmed Hccc hexaquark state

Tian Wei Wu; Ya Wen Pan; Ming Zhu Liu; Si Qiang Luo; Li Sheng Geng; Xiang Liu

doi:10.1103/PhysRevD.105.L031505

Discovery of the doubly charmed Tcc+ state implies a triply charmed Hccc hexaquark state

Tian Wei Wu
, Ya Wen Pan
, Ming Zhu Liu
, Si Qiang Luo
, Li Sheng Geng
, Xiang Liu

Sino-French Engineer School/School of General Engineering

Beihang University
University of Chinese Academy of Sciences
Lanzhou University
Zhengzhou University

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

The doubly charmed exotic state Tcc recently discovered by the LHCb Collaboration could well be a DD∗ molecular state long predicted in various theoretical models, in particular, the DD∗ isoscalar axial vector molecular state predicted in the one-boson-exchange model. In this work, we study the DDD∗ system in the Gaussian expansion method with the DD∗ interaction derived from the one-boson-exchange model and constrained by the precise binding energy of 273±63 keV of Tcc with respect to the D∗+D0 threshold. We show the existence of a DDD∗ state with a binding energy of a few hundred keV, isospin 1/2, and spin-parity 1-. Its main decay modes are DDDπ and DDDγ. The existence of such a state could in principle be confirmed with the upcoming LHC data and will unambiguously determine the nature of the Tcc+ state and of the many exotic states of similar kind, thus deepening our understanding of the nonperturbative strong interaction.

Original language	English
Article number	L031505
Journal	Physical Review D
Volume	105
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevD.105.L031505
State	Published - 1 Feb 2022

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title = "Discovery of the doubly charmed Tcc+ state implies a triply charmed Hccc hexaquark state",

abstract = "The doubly charmed exotic state Tcc recently discovered by the LHCb Collaboration could well be a DD∗ molecular state long predicted in various theoretical models, in particular, the DD∗ isoscalar axial vector molecular state predicted in the one-boson-exchange model. In this work, we study the DDD∗ system in the Gaussian expansion method with the DD∗ interaction derived from the one-boson-exchange model and constrained by the precise binding energy of 273±63 keV of Tcc with respect to the D∗+D0 threshold. We show the existence of a DDD∗ state with a binding energy of a few hundred keV, isospin 1/2, and spin-parity 1-. Its main decay modes are DDDπ and DDDγ. The existence of such a state could in principle be confirmed with the upcoming LHC data and will unambiguously determine the nature of the Tcc+ state and of the many exotic states of similar kind, thus deepening our understanding of the nonperturbative strong interaction.",

author = "Wu, \{Tian Wei\} and Pan, \{Ya Wen\} and Liu, \{Ming Zhu\} and Luo, \{Si Qiang\} and Geng, \{Li Sheng\} and Xiang Liu",

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doi = "10.1103/PhysRevD.105.L031505",

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AU - Wu, Tian Wei

AU - Pan, Ya Wen

AU - Liu, Ming Zhu

AU - Luo, Si Qiang

AU - Geng, Li Sheng

AU - Liu, Xiang

PY - 2022/2/1

Y1 - 2022/2/1

N2 - The doubly charmed exotic state Tcc recently discovered by the LHCb Collaboration could well be a DD∗ molecular state long predicted in various theoretical models, in particular, the DD∗ isoscalar axial vector molecular state predicted in the one-boson-exchange model. In this work, we study the DDD∗ system in the Gaussian expansion method with the DD∗ interaction derived from the one-boson-exchange model and constrained by the precise binding energy of 273±63 keV of Tcc with respect to the D∗+D0 threshold. We show the existence of a DDD∗ state with a binding energy of a few hundred keV, isospin 1/2, and spin-parity 1-. Its main decay modes are DDDπ and DDDγ. The existence of such a state could in principle be confirmed with the upcoming LHC data and will unambiguously determine the nature of the Tcc+ state and of the many exotic states of similar kind, thus deepening our understanding of the nonperturbative strong interaction.

AB - The doubly charmed exotic state Tcc recently discovered by the LHCb Collaboration could well be a DD∗ molecular state long predicted in various theoretical models, in particular, the DD∗ isoscalar axial vector molecular state predicted in the one-boson-exchange model. In this work, we study the DDD∗ system in the Gaussian expansion method with the DD∗ interaction derived from the one-boson-exchange model and constrained by the precise binding energy of 273±63 keV of Tcc with respect to the D∗+D0 threshold. We show the existence of a DDD∗ state with a binding energy of a few hundred keV, isospin 1/2, and spin-parity 1-. Its main decay modes are DDDπ and DDDγ. The existence of such a state could in principle be confirmed with the upcoming LHC data and will unambiguously determine the nature of the Tcc+ state and of the many exotic states of similar kind, thus deepening our understanding of the nonperturbative strong interaction.

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JO - Physical Review D

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Discovery of the doubly charmed Tcc+ state implies a triply charmed Hccc hexaquark state

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