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Main Authors: Kinugawa, Tomona, Hyodo, Tetsuo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.21554
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author Kinugawa, Tomona
Hyodo, Tetsuo
author_facet Kinugawa, Tomona
Hyodo, Tetsuo
contents The internal structure of the near-threshold exotic hadrons, $T_{cc}$ and $X(3872)$, are studied by respecting the decay and coupled-channel contributions. The effective field theory model is introduced to calculate the compositeness, the probability of finding the hadronic molecular component. Applying the new interpretation scheme for the complex compositeness of unstable states and using the bare energies of the compact component estimated by the constituent quark model, we find that approximately 50 % of the $T_{cc}$ wavefunction is occupied by the $D^{0}D^{*+}$ molecular component. This indicates that the structure of $T_{cc}$ is primarily dominated by the $D^0D^{*+}$ component, having the nearest threshold. However, other components, such as the isospin partner $D^{*0}D^{+}$ channels, also provide non-negligible contributions. On the other hand, about 90 % of $X(3872)$ is composed of the $D^{0}\bar{D}^{0*}$ molecular component. This is because the non-composite bare state and the charged $D\bar{D}^{*}$ threshold are located relatively far from the $X(3872)$ and contribute very little to its internal structure.
format Preprint
id arxiv_https___arxiv_org_abs_2503_21554
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Internal structure of $T_{cc}$ and $X(3872)$ by using compositeness
Kinugawa, Tomona
Hyodo, Tetsuo
High Energy Physics - Phenomenology
Nuclear Theory
The internal structure of the near-threshold exotic hadrons, $T_{cc}$ and $X(3872)$, are studied by respecting the decay and coupled-channel contributions. The effective field theory model is introduced to calculate the compositeness, the probability of finding the hadronic molecular component. Applying the new interpretation scheme for the complex compositeness of unstable states and using the bare energies of the compact component estimated by the constituent quark model, we find that approximately 50 % of the $T_{cc}$ wavefunction is occupied by the $D^{0}D^{*+}$ molecular component. This indicates that the structure of $T_{cc}$ is primarily dominated by the $D^0D^{*+}$ component, having the nearest threshold. However, other components, such as the isospin partner $D^{*0}D^{+}$ channels, also provide non-negligible contributions. On the other hand, about 90 % of $X(3872)$ is composed of the $D^{0}\bar{D}^{0*}$ molecular component. This is because the non-composite bare state and the charged $D\bar{D}^{*}$ threshold are located relatively far from the $X(3872)$ and contribute very little to its internal structure.
title Internal structure of $T_{cc}$ and $X(3872)$ by using compositeness
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2503.21554