Litcius/Paper detail

Mass spectra of doubly heavy tetraquarks in an improved chromomagnetic interaction model

Tao Guo, Jianing Li, Jiaxing Zhao, Lianyi He

2022Physical review. D/Physical review. D.50 citationsDOIOpen Access PDF

Abstract

Doubly heavy tetraquark states are the prime candidates for tightly bound exotic states. We present a systematic study of the mass spectra of the $S$-wave doubly heavy tetraquark states $QQ\overline{q}\overline{q}$ ($q=u$, $d$, $s$ and $Q=c$, $b$) with different quantum numbers ${J}^{P}={0}^{+}$, ${1}^{+}$, and ${2}^{+}$ in the framework of the improved chromomagnetic interaction (ICMI) model. The parameters in the ICMI model are obtained by fitting the conventional hadron spectra and are used directly to predict the masses of the tetraquark states. For heavy quarks, the uncertainties of the parameters are obtained by comparing the masses of doubly and triply heavy baryons with those given by lattice QCD, QCD sum rules, and potential models. Several compact and stable bound states are found in both the doubly charmed and doubly bottomed tetraquark systems. The predicted mass of the $cc\overline{u}\overline{d}$ state is consistent with the recent measurement from the LHCb Collaboration.

Topics & Concepts

TetraquarkPhysicsParticle physicsDiquarkQuarkExotic hadronMass spectrumQuantum chromodynamicsBaryonHadronQCD sum rulesBound stateQuark modelSpectral lineHadron spectroscopyLattice QCDQuantum numberNuclear physicsQuarkoniumQuantum mechanicsIonQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research