Litcius/Paper detail

Exotic resonances of fully-heavy tetraquarks in a lattice-QCD insipired quark model

Gang Yang, Jialun Ping, Jorge Segovia

2021Physical review. D/Physical review. D.49 citationsDOIOpen Access PDF

Abstract

Fully-heavy tetraquark states, i.e., $cc\overline{c}\overline{c}$, $bb\overline{b}\overline{b}$, $bb\overline{c}\overline{c}$ ($cc\overline{b}\overline{b}$), $cb\overline{c}\overline{c}$, $cb\overline{b}\overline{b}$, and $cb\overline{c}\overline{b}$, are systematically investigated by means of a nonrelativistic quark model based on lattice-QCD studies of the two-body $Q\overline{Q}$ interaction, which exhibits a spin-independent Cornell potential along with a spin-spin term. The four-body problem is solved using the Gaussian expansion method; additionally, the so-called complex scaling technique is employed so that bound, resonance, and scattering states can be treated on the same footing. Moreover, a complete set of four-body configurations, including meson-meson, diquark-antidiquark, and K-type configurations, as well as their couplings, are considered for spin-parity quantum numbers ${J}^{P(C)}={0}^{+(+)}$, ${1}^{+(\ifmmode\pm\else\textpm\fi{})}$, and ${2}^{+(+)}$ in the $S$-wave channel. Several narrow resonances, with two-meson strong decay widths less than 30 MeV, are found in all of the tetraquark systems studied. Particularly, the fully-charm resonances recently reported by the LHCb Collaboration, at the energy range between 6.2 and 7.2 GeV in the di-$J/\ensuremath{\psi}$ invariant spectrum, can be well identified in our calculation. Focusing on the fully-bottom tetraquark spectrum, resonances with masses between 18.9 and 19.6 GeV are found. For the remaining charm-bottom cases, the masses are obtained within a energy region from 9.8 GeV to 16.4 GeV. All these predicted resonances can be further examined in future experiments.

Topics & Concepts

PhysicsTetraquarkParticle physicsMesonQuarkLattice QCDBar (unit)DiquarkQuantum chromodynamicsNuclear physicsQuantum numberAtomic physicsMeteorologyQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research