Could $Y_{b}(10890)$ be the P-wave $[bq][\bar{b}\bar{q}]$ tetraquark   state?

Jian-Rong Zhang; Ming-Qiu Huang

arXiv:1011.2815·hep-ph·November 19, 2010

Could $Y_{b}(10890)$ be the P-wave $[bq][\bar{b}\bar{q}]$ tetraquark state?

Jian-Rong Zhang, Ming-Qiu Huang

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TL;DR

This paper uses QCD sum rules to calculate the masses of certain tetraquark states, supporting the interpretation of $Y_{b}(10890)$ and $Y(4360)$ as P-wave tetraquarks with specific quark configurations.

Contribution

It provides a mass calculation for $Y_{b}(10890)$ and $Y(4360)$ as P-wave tetraquark states, supporting their tetraquark structure hypothesis.

Findings

01

Calculated $Y_{b}(10890)$ mass as $10.88 ext{ GeV}$, matching experimental data.

02

Estimated $Y(4360)$ mass as $4.32 ext{ GeV}$, consistent with observations.

03

Supports tetraquark interpretation for both states.

Abstract

Assuming $Y_{b} (10890)$ as a P-wave $b q$ -scalar-diquark $\overset{ˉ}{b} \overset{q}{ˉ}$ -scalar-antidiquark tetraquark state, the mass of $Y_{b} (10890)$ is computed in the framework of QCD sum rule method. Technically, contributions of operators up to dimension six are included in the operator product expansion (OPE). The numerical result $10.88 \pm 0.13 G e V$ for $Y_{b} (10890)$ agrees well with the experimental value, which favors the P-wave $[b q] [\overset{ˉ}{b} \overset{q}{ˉ}]$ tetraquark configuration for $Y_{b} (10890)$ . In the same picture, the mass of $Y (4360)$ is calculated and the result $4.32 \pm 0.20 G e V$ is compatible with the experimental data, which supports $Y (4360)$ 's P-wave $[c q] [\overset{c}{ˉ} \overset{q}{ˉ}]$ structure.

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