Probing NNccc three-body systems with the modern QCD Nccc interaction

Abstract

Newly, first-principles lattice QCD results at the physical pion mass, mπ 137.1 MeV, have been reported by the HAL QCD Collaboration for the S-wave interaction between the nucleon (N) and the triply charmed Omega baryon (ccc). The Nccc potentials in the spin-1 (3S1) and spin-2 (5S2) channels were derived and found to be attractive, though no two-body bound state was supported in these channels. The present work investigates the NNccc three-body system using the Malfliet-Tjon NN potential. Analyses of spin-1, spin-averaged, and spin-2 Nccc channels (at Euclidean times 16, 17, 18) reveal a three-body bound state only for the d-ccc configuration with spin (0)1/2+ and t/a=16. Its binding energy (B3 = -2.255 MeV) lies slightly below the deuteron's (Bd = -2.23 MeV). Other parameter sets do not yield a bound state, and complex scaling analysis indicates these configurations correspond to virtual states rather than resonances. The Coulomb potential's role was also examined to differentiate charged states.