Quark-diquark potential and diquark mass from Lattice QCD

Abstract

We propose a new application of lattice QCD to calculate the quark-diquark potential, diquark mass and quark mass required for the diquark model. As a concrete example, we consider the c baryon and treat it as a charm-diquark(c-[ud]) two-body bound state. We extend the HAL QCD method to calculate the charm-diquark potential which reproduces the equal-time Nambu-Bethe-Salpeter wave function of the S-wave state (c(12+)). The diquark mass is determined so as to reproduce the difference between the S-wave and the spin-orbit averaged P-wave energies, i.e. the difference between the c(12+) level and the average of the c(12-) and the c(32-) levels. Numerical calculations are performed on a 323× 64 lattice with lattice spacing of a 0.0907 fm and the pion mass of mπ 700 MeV. Our charm-diquark potential is given by the Coulomb+linear (Cornell) potential where the long range behavior is consistent with the charm-anticharm potential while the Coulomb attraction is considerably smaller. This weakening of the attraction may be attributed to the diquark size effect. The obtained diquark mass is mD=1.273(44) GeV. Our diquark mass lies slightly above the conventional estimates, namely the meson mass and twice the constituent quark mass 2mN/3.