Higher mass spectra of the fully-charmed and fully-bottom tetraquarks

Abstract

In this work, we calculate the higher mass spectra for the 2S- and 1D-wave fully-charmed and fully-bottom tetraquark states in a nonrelativistic potential quark model. The 2S-wave fully-charmed/bottom tetraquark states lie in the mass range of (6.9,7.1)/(19.7,19.9) GeV, apart for the highest 0++ state T(cccc)0++(7185)/ T(bbbb)0++(19976). Most of the 2S-wave states highly overlap with the high-lying 1P-wave states. The masses for the 1D-wave fully-charmed/bottom tetraquarks are predicted to be in the range of (6.7,7.2)/(19.5,20.0) GeV. The mass range for the D-wave tetraquark states cover most of the mass range of the P-wave states and the whole mass range of the 2S-wave states. The narrow structure X(6900) recently observed at LHCb in the di-J/ invariant mass spectrum may be caused by the 1P-, or 2S-, or 1D-wave Tcccc states. The vague structure X(7200) may be caused by the highest 2S-wave state T(cccc)0++(7185), two low-lying 3S-wave states T(cccc)0++(7240) and T(cccc)2++(7248), and/or the high-lying 1D-wave states with masses around 7.2 GeV and JPC=0++,1++,2++,3++, or 4++. While it is apparent that the potential quark model calculations predict more states than the structures observed in the di-J/ invariant mass spectrum, our calculations will help further understanding of the properties of these fully-heavy tetraquark states in their strong and magnetic interactions with open channels based on explicit quark model wave functions.

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