Resonance X(6600)

Abstract

The resonance X(6600) is explored as the all-charm tetraquark structure with spin-parities JPC=2++. It is considered in the diquark-antidiquark picture and modeled as a tensor state X composed of the axial-vector diquark cCγμc and antidiquark c% γCc with C being the charge conjugation matrix. The mass and decay width of X are evaluated in the framework of QCD sum rule (SR) methods. The two-point SR approach is applied to find its spectroscopic parameters, while three-point SRs used to calculate partial widths of different decay channels of X. We study its leading decays X J/ J/, X ηcηc and c1(1P)η c in which all four c-quarks constitute final-state mesons. We consider also the subleading channels X D(s)( )+D(s)( )- and % D(s)( )0D(s)( )0 generated by annihilation of cc quarks in the tetraquark. Comparison of the mass m=(6609 50)~ MeV and width [X]=(165 23)~ MeV of the tensor diquark-antidiquark state X with experimental data allows us to interpret it as an essential component of the resonance X(6600). We also provide a lower limit for the mass of the first radial excitation of X.