Charmonium resonances in the 3.9 GeV/c2 energy region and the X(3915)/X(3930) puzzle

Abstract

An interesting controversy has emerged challenging the widely accepted nature of the X(3915) and the X(3930) resonances, which had initially been assigned to the c0(2P) and c2(2P) c c states, respectively. To unveil their inner structure, the properties of the JPC\!\!=\!0++ and JPC\!\!=\!2++ charmonium states in the energy region of these resonances are analyzed in the framework of a constituent quark model. Together with the bare q q states, threshold effects due to the opening of nearby meson-meson channels are included in a coupled-channels scheme calculation. We find that the structure of both states is dominantly molecular with a probability of bare q q states lower than 45\%. Our results favor the hypothesis that X(3915) and X(3930) resonances arise as different decay mechanisms of the same JPC\!\!=\!2++ state. Moreover we found an explanation for the recently discovered M=3860 MeV/c2 as a JPC\!\!=\!0++ 2P state and rediscovery the lost Y(3940) as an additional state in the JPC\!\!=\!0++ family.