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Autori principali: Kang, Xian-Wei, Ding, Wen-Shuo
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.19597
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author Kang, Xian-Wei
Ding, Wen-Shuo
author_facet Kang, Xian-Wei
Ding, Wen-Shuo
contents In 2021, LHCb collaboration reported a very narrow state in the $D^0D^0π^+$ mass spectrum just below the $D^{*+}D^0$ mass threshold. We consider the influence of the Castillejo-Dalitz-Dyson (CDD) pole in the scattering amplitude to derive a general treatment for the two-body final state interaction near its threshold. The line shape (or the energy dependent event distribution) are then obtained, where the parameters can be fixed by fitting to the experimental data on the $D^0D^0π^+$ mass spectrum. Within our method the data are quite well reproduced. The pole structure in the complex energy plane indicates that the $T_{cc}$ state has a large portion of elementary degree of freedom (e.g., the compact tetraquark component) inside its hadron wave function. The compositeness as a measure of molecule component in its wave function is predicted to be $0.23_{-0.09}^{+0.40}$. Clearly, the non-molecular component takes a non-negligible or even dominant portion.
format Preprint
id arxiv_https___arxiv_org_abs_2412_19597
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Composite nature of the $T_{cc}$ state
Kang, Xian-Wei
Ding, Wen-Shuo
High Energy Physics - Phenomenology
High Energy Physics - Experiment
Nuclear Theory
In 2021, LHCb collaboration reported a very narrow state in the $D^0D^0π^+$ mass spectrum just below the $D^{*+}D^0$ mass threshold. We consider the influence of the Castillejo-Dalitz-Dyson (CDD) pole in the scattering amplitude to derive a general treatment for the two-body final state interaction near its threshold. The line shape (or the energy dependent event distribution) are then obtained, where the parameters can be fixed by fitting to the experimental data on the $D^0D^0π^+$ mass spectrum. Within our method the data are quite well reproduced. The pole structure in the complex energy plane indicates that the $T_{cc}$ state has a large portion of elementary degree of freedom (e.g., the compact tetraquark component) inside its hadron wave function. The compositeness as a measure of molecule component in its wave function is predicted to be $0.23_{-0.09}^{+0.40}$. Clearly, the non-molecular component takes a non-negligible or even dominant portion.
title Composite nature of the $T_{cc}$ state
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
Nuclear Theory
url https://arxiv.org/abs/2412.19597