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Main Authors: Jiang, Lin-Juan, An, Chun-Sheng, Deng, Cheng-Rong, Li, Gang, Xie, Ju-Jun
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.12147
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author Jiang, Lin-Juan
An, Chun-Sheng
Deng, Cheng-Rong
Li, Gang
Xie, Ju-Jun
author_facet Jiang, Lin-Juan
An, Chun-Sheng
Deng, Cheng-Rong
Li, Gang
Xie, Ju-Jun
contents We perform a theoretical study on the spectrum of the low-lying hidden-bottom ($q\bar{q}b\bar{b}$ with $q=$ $u$, $d$ and $s$) and double-bottom ($q\bar{q}bb$) tetraquark states within a nonrelativistic quark model, in which the instanton-induced interaction is taken as the residual spin-dependent hyperfine interaction between quarks. All the model parameters are fixed by fitting the spectrum of the ground hadron states. The numerical results indicate that masses of several $X_{q\bar{q}}$, $Z_{b}$, and $Z_{bs}$ tetraquark states are below and near thresholds of corresponding meson-meson channels, thus these states may form components of exotic meson states with reasonable probabilities. Especially, in present model, masses of several obtained states with quantum number $I^G(J^P)=1^+(1^{+})$ are close to $Z_b^\pm(10610)$, so one may expect these states to be non-negligible components of the experimentally observed $Z_{b}$ states. Concerning to the double-bottom tetraquark states, the present results are in general consistent with other previous works. Two possible stable $T_{bb}$ states with quark content $bb\bar{n}\bar{n}$ ($n=u$ or $d$ quark) lying at energies $10558$ MeV and $10650$ MeV are found, and one possible stable $bb\bar{n}\bar{s}$ state is found, whose energy is $\sim10687$ MeV.
format Preprint
id arxiv_https___arxiv_org_abs_2410_12147
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Theoretical study on low-lying hidden-bottom and double-bottom tetraquark states
Jiang, Lin-Juan
An, Chun-Sheng
Deng, Cheng-Rong
Li, Gang
Xie, Ju-Jun
High Energy Physics - Phenomenology
We perform a theoretical study on the spectrum of the low-lying hidden-bottom ($q\bar{q}b\bar{b}$ with $q=$ $u$, $d$ and $s$) and double-bottom ($q\bar{q}bb$) tetraquark states within a nonrelativistic quark model, in which the instanton-induced interaction is taken as the residual spin-dependent hyperfine interaction between quarks. All the model parameters are fixed by fitting the spectrum of the ground hadron states. The numerical results indicate that masses of several $X_{q\bar{q}}$, $Z_{b}$, and $Z_{bs}$ tetraquark states are below and near thresholds of corresponding meson-meson channels, thus these states may form components of exotic meson states with reasonable probabilities. Especially, in present model, masses of several obtained states with quantum number $I^G(J^P)=1^+(1^{+})$ are close to $Z_b^\pm(10610)$, so one may expect these states to be non-negligible components of the experimentally observed $Z_{b}$ states. Concerning to the double-bottom tetraquark states, the present results are in general consistent with other previous works. Two possible stable $T_{bb}$ states with quark content $bb\bar{n}\bar{n}$ ($n=u$ or $d$ quark) lying at energies $10558$ MeV and $10650$ MeV are found, and one possible stable $bb\bar{n}\bar{s}$ state is found, whose energy is $\sim10687$ MeV.
title Theoretical study on low-lying hidden-bottom and double-bottom tetraquark states
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2410.12147