QCD sum rule analysis predicts six stable gluonic hidden-charm tetraquark states with J^PC = 0^{±±} and estimates masses for their hidden-bottom partners.
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QCD sum rules identify three possible molecular dibaryons: Λ_c Σ_c with J^P=1^+ and anti-Λ_c Σ_c with J^P=0^- and 1^-; the other five channels are assigned as resonances.
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Spectrum of $J^{PC} = 0^{\pm\pm}$ Gluonic Hidden-Charm Tetraquark States
QCD sum rule analysis predicts six stable gluonic hidden-charm tetraquark states with J^PC = 0^{±±} and estimates masses for their hidden-bottom partners.
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Search for the $\Lambda_c\Sigma_c$ and $\bar{\Lambda}_c\Sigma_c$ dibaryon structures via the QCD sum rules
QCD sum rules identify three possible molecular dibaryons: Λ_c Σ_c with J^P=1^+ and anti-Λ_c Σ_c with J^P=0^- and 1^-; the other five channels are assigned as resonances.