X(3872) and hidden charmed tetraquarks

Abstract

In a constituent quark model, a hidden charmed tetraquark is assumed consisting of a cq diquark and an c q antidiquark or vice versa. The Semay-Silvestre-Brac potentials are employed to calculate the masses of cq (q=u, d) diquarks. The mass of the cq diquark or c q antidiquark with spin-0 is predicted with 2175 MeV, and the spin-1 one is predicted with 2220 MeV. The masses of hidden charmed tetraquarks from 1S to 2P excitations are systemically calculated in terms of the same potentials. It is found that the mass of hidden charmed tetraquark without radial excitation grows higher in 1+-,~1++,~1--,~0-+,~0--,~1-+,~·s sequence, and the tetraquarks with exotic JPC=0--,~1-+ have higher masses. The hidden charmed tetraquarks with radial excitations have masses larger than 4300 MeV. The 1S-1P and 1S-2S mass splittings of the hidden charmed tetraquarks are about 390-400 MeV and 550-570 MeV, respectively, which are about 70 MeV and 50 MeV smaller than those of normal charmonium. The 1P-2P and 2S-2P mass splittings are similar to those for conventional c c charmonium mesons. Based on our predicted masses for hidden charmed tetraquarks, some XYZ exotics are analyzed and tentatively assigned. X*(3860) is possibly the 0++ tetraquark. Zc(3900) and X(3940) are possibly the 1+- tetraquarks, and X(3872) is possibly a 1++ tetraquark. X(4250) may be a 0-+, 0++ or 1-+ tetraquark, X(4240) may be a 0-- tetraquark. With radial excitations, X(4350) may be a 0++ tetraquark, Zc(4430) may be a 1+- tetraquark, X(4630) may be a 0-+ or 1-+ tetraquark, and X(Y)(4660) may be the 1-- tetraquark. Y(4008) or Y(4390) seems impossibly the 1-- tetraquark.