Tetraquark bound states in constituent quark models: benchmark test calculations

Abstract

We investigate the tetraquark bound states that are manifestly exotic using three distinct few-body methods: Gaussian Expansion Method (GEM), Resonating Group Method (RGM), and Diffusion Monte Carlo (DMC). We refer to manifestly exotic states that do not involve a mixture with the conventional mesons through the creation and annihilation of nn, where n=u, d. Our calculations are conducted with two types of quark models: the pure constituent quark model featuring one-gluon-exchange interactions and confinement interactions, and the chiral constituent quark model, supplemented by extra one-boson-exchange interactions. This study represents a comprehensive benchmark test of various few-body methods and quark models. Our findings reveal the superiority of GEM over RGM and DMC methods based on present implements for the tetraquark bound states. Additionally, we observe a tendency for the chiral quark model to overestimate the binding energies. We systematically explore the fully, triply, doubly, and singly heavy tetraquark states with JP=0+,1+,2+, encompassing over 150 states in total. We successfully identify several bound states, including [ccnn]JP=1+I=0, [bbnn]JP=1+I=0, [bcnn]JP=0+,1+,2+I=0, [bsnn]JP=0+,1+I=0, [csnn]JP=0+I=0, and [bbns]JP=1+, all found to be bound states below the dimeson thresholds.

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