Tetraquark candidates in LHCb's di-J/ψ mass spectrum *
Zhi-Gang Wang
Abstract
Abstract In this article, we study the first radial excited states of the scalar, axialvector, vector, and tensor diquark-antidiquark-type tetraquark states with the QCD sum rules and obtain the masses and pole residues; then, we use the Regge trajectories to obtain the masses of the second radial excited states. The predicted masses support assigning the broad structure from 6.2 to 6.8 GeV in the di- mass spectrum to be the first radial excited state of the scalar, axialvector, vector, or tensor tetraquark state, as well as assigning the narrow structure at about 6.9 GeV in the di- mass spectrum to be the second radial excited state of the scalar or axialvector tetraquark state.
Topics & Concepts
TetraquarkPhysicsExcited stateSpectrum (functional analysis)Particle physicsTensor (intrinsic definition)Scalar (mathematics)Mass spectrumQuantum chromodynamicsQCD sum rulesState (computer science)Bound stateNuclear physicsPseudovectorSpectral lineGround stateAtomic physicsInvariant massPartial wave analysisQuantum electrodynamicsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesNeutrino Physics Research