The fully-light vector tetraquark states with explicit P-wave via the QCD sum rules
Abstract
In this paper, we apply the QCD sum rules to study the vector fully-light tetraquark states with an explicit P-wave between the diquark and antidiquark pair. We observed that the Cγα∂μγα C (or CγαDμγα C) type current with fully-strange quarks couples potentially to a tetraquark state with the mass 2.16 0.14 \,GeV, which supports assigning the Y/φ(2175) as the diquark-antidiquark type tetraquark state with the JPC=1--. The qsqs and ssss vector tetraquark states with the structure Cγμ ∂α γα C + Cγα ∂α γμ (or Cγμ Dα γα C + Cγα Dα γμ) are consistent with the X(2200) and X(2400) respectively, which lie in the region 2.20 to 2.40\,GeV. The central values of the masses of the fully-strange vector tetraquark states with an explicit P-wave are about 2.16-3.13\,GeV (or 2.16-3.16\,GeV), and the predictions for other fully-light vector tetraquark states with and without hidden-strange are also presented.
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