Finding the $0^{--}$ Glueball

Cong-Feng Qiao; Liang Tang

arXiv:1408.3995·hep-ph·December 3, 2014

Finding the $0^{--}$ Glueball

Cong-Feng Qiao, Liang Tang

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TL;DR

This paper predicts the existence and mass spectrum of two $0^{--}$ glueball states using QCD Sum Rules, suggesting they could be observed in current high-energy physics experiments.

Contribution

The study provides the first mass spectrum predictions for $0^{--}$ oddballs and discusses their potential experimental detection.

Findings

01

Two stable $0^{--}$ oddballs with masses around 3.81 and 4.33 GeV.

02

Analysis of their possible production and decay modes in experiments.

03

Potential observation in BESIII, BELLEII, PANDA, Super-B, and LHCb.

Abstract

With appropriate interpolating currents the mass spectrum of $0^{--}$ oddball is obtained in the framework of QCD Sum Rules (QCDSR). We find there are two stable oddballs with masses of $3.81 \pm 0.12 GeV$ and $4.33 \pm 0.13 GeV$ , and analyze their possible production and decay modes in experiments. Noticing that these $0^{--}$ oddballs with unconventional quantum number are attainable in BESIII, BELLEII, PANDA, Super-B and LHCb experiments, we believe the long search elusive glueball could be measured shortly.

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