Spectrum of ccbb, bccc, and bcbb Tetraquark States in the Dynamical Diquark Model

Abstract

The dynamical diquark model assumes that exotic hadrons can be formed from colored diquarks. This model asserts a multiquark exotic state composed of a compact diquark δ and antidiquark δ for a tetraquark interacting through a gluonic field of finite extent. Using Born-Oppenheimer (BO) approximation and BO potential calculated numerically on the lattice, we study mass spectra of S-wave ccbb, bccc, and bcbb tetraquark systems in the basis of diquark spins. We assume that colour-antitriple diquark and colour-triplet antidiquark form tetraquark state. The predicted mass spectrum for ground state of ccbb is found to be lower then their corresponding two-meson thresholds. This system may be a candidate for bound state. Masses of bccc and bcbb tetraquark states are found to be above than the corresponding two-meson thresholds.