Mass spectra of doubly charmed tetraquarks Tcc
Abstract
Motivated by the first observation of a doubly charmed tetraquark candidate Tcc(3875)+, we perform a systematic calculation of the mass spectra of doubly charmed tetraquark states from 1S to 2P excitations in a nonrelativistic constituent quark potential model. In terms of the quark-quark potential, the mass of the charmed spin-1 diquark is predicted 3500 MeV. The masses of the light ``good'' and ``bad'' antidiquark are calculated with 670 MeV and 840 MeV, respectively. The mass difference between light ``good'' and ``bad'' diquarks is 170 MeV, which is consistent with previous phenomenological analyses. The interaction between the charmed diquark and the light antidiquark is then modulated by the quark-antiquark potential in the model, and the mass spectra of doubly charmed tetraquarks from 1S to 2P excitations are calculated with the calculated masses of diquarks/antidiquarks and refitted parameters from Tcc(3875)+ and X(3872). The 1S-1P and 1S-2S mass splittings of doubly charmed tetraquarks are about 410-430 MeV and 610-650 MeV, respectively, and this mass splittings pattern is similar to that for ordinary D mesons. The mass splittings of doubly charmed tetraquarks with isospin-0 is about 10-25 MeV higher than the corresponding mass splittings of doubly charmed tetraquarks with isospin-1 from 1S to 2P excitations. Tcc(3875)+ is possible to be assumed as a IJP=01+ ground doubly charmed tetraquark candidate with a light ``good'' antidiquark, and the next P-wave excited doubly charmed tetraquarks are predicted to have masses with an average 420-430 MeV higher. A JP=0+ ground doubly charmed tetraquark Tcc(3834) with isospin-1 located around 3834 MeV is expected.
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