Hunting for the prospective Tcc family based on the diquark-antidiquark configuration
Abstract
Inspired by the first Tcc observation at the LHCb Collaboration, the spectroscopic properties of the entire isoscalar and isovector Tcc family are systematically investigated by means of multiple sorts of relativized and nonrelativistic diquark formalisms, which include the Godfrey-Isgur relativized diquark model, the modified Godfrey-Isgur relativized diquark model incorporating the color screening effects, the nonrelativistic diquark model with the Gaussian type hyperfine potential, and the nonrelativistic diquark model with the Yukawa type hyperfine potential. In terms of the 1S-wave double-charm tetraquark state with I(JP)=0(1+), the predicted masses of most diquark-antidiquark scenarios are somewhat higher than the observed value of the Tcc(3875)+ structure. In light of the diquark-antidiquark configuration, this work unveils the mixing angles of the orbitally excited isovector Tcc states and the magic mixing angles of the ideal heavy-light tetraquarks for the first time. As the advancement of the experimental detection capability, these phenomenological predictions will effectively boost the hunting for the prospective low-lying Tcc states in the future.
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