Doubly heavy tetraquark states in the constituent quark model using diffusion Monte Carlo method

Abstract

We use the diffusion Monte Carlo method to calculate the doubly heavy tetraquark Tcc system in two kinds of constituent quark models, the pure constituent quark model AL1/AP1 and the chiral constituent quark model. When the discrete configurations are complete and no spatial clustering is preseted, the AL1/AP1 model gives an energy of Tcc close to the DD* threshold, and the chiral constituent quark model yields a deeply bound state. We further calculate all doubly heavy tetraquark systems with JP=0+,1+,2+, and provide the binding energies of systems with bound states. The I(JP)=0(0+) bcnn, 0(1+) bbnn, 0(1+) bcnn, 12(1+) bbsn systems have bound states in all three models. Since the DMC method has almost no restriction on the spatial part, the resulting bound states have greater binding energies than those obtained in previous works.