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In this article, we study the ground-state mass of full-heavy tetraquarks ccc̄c̄ and bbb̄b̄ with solving the nonrelativistic four-body systems. The flux-tube configurations, the tetraquark four-body potential butterfly, and the… Click to show full abstract
In this article, we study the ground-state mass of full-heavy tetraquarks ccc̄c̄ and bbb̄b̄ with solving the nonrelativistic four-body systems. The flux-tube configurations, the tetraquark four-body potential butterfly, and the dimeson potential flip-flop of SU(3) lattice quantum chromodynamics have been applied to describe the tetraquark interaction. Our numerical analysis indicates that the disconnected and connected static potentials can predict the mass of tetraquark very close to experimental data. ∗ E-mail: [email protected] † E-mail: [email protected]
Journal Title: Physical Review D
Year Published: 2022
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