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The glueball content of η

Renqiang Zhang, Wei Sun, Ying Chen, Ming Gong, Long-Cheng Gui, Zhaofeng Liu

2022Physics Letters B16 citationsDOIOpen Access PDF

Abstract

We carry out the first lattice QCD derivation of the mixing energy and the mixing angle of the pseudoscalar charmonium and glueball on two gauge ensembles with Nf=2 degenerate dynamical charm quarks. The mixing energy is determined to be 49(6) MeV on the near physical charm ensemble, which seems insensitive to charm quark mass. By the assumption that X(2370) is predominantly a pseudoscalar glueball, the mixing angle is determined to be approximately 4.6(6)∘, which results in a +3.9(9) MeV mass shift of the ground state pseudoscalar charmonium. In the mean time, the mixing can raise the total width of the pseudoscalar charmonium by 7.2(8) MeV, which explains to some extent the relative large total width of the ηc meson. As a result, the branching fraction of ηc→γγ can be understood in this cc¯-glueball mixing framework. On the other hand, the possible discrepancy of the theoretical predictions and the experimental results of the partial width of J/ψ→γηc cannot be alleviated by the cc¯-glueball mixing picture yet, which demands future precise experimental measurements of this partial width.

Topics & Concepts

GlueballParticle physicsPhysicsPseudoscalarMesonNuclear physicsQuarkQuarkoniumMixing (physics)Lattice QCDCharm quarkPseudoscalar mesonQuantum mechanicsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research
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