Scattering of cc and cc in chiral effective field theory
Abstract
We investigate the S-wave scatterings of cc and c c systems within a unified chiral effective field theory framework up to next-to-leading order. The contact low-energy coupling constants are determined by fitting to the lattice QCD results for the cc scattering phase shift at an unphysical pion mass. After extrapolating to the physical pion mass, we find a repulsive interaction in the I(JP)=0(0+) cc channel, consistent with the lattice QCD simulation. On the c c side, using the fitted contact low-energy constants, we predict the phase shifts and potentials for c c scattering in the I(JPC)=0(0-+) and 0(1--) channels. Attractive interactions are found in both channels, each allowing for the formation of bound states. In particular, the attraction in the 0(1--) c c channel is stronger. In addition, our analysis reveals that the spin-spin term caused by the two-pion exchange contributes significantly to the interactions, leading to a distinct mass splitting between the 0(0-+) and 0(1--) c c channels.
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