Coupled-channels study of Lambda K and Sigma K states in the chiral SU(3) quark model

Abstract

The S-wave K and K states with isospin I=1/2 are dynamically investigated within the framework of the chiral SU(3) quark model by solving a resonating group method (RGM) equation. The model parameters are taken from our previous work, which gave a good description of the energies of the baryon ground states, the binding energy of the deuteron, and the experimental data of the nucleon-nucleon (NN) and nucleon-hyperon (NY) scattering. Assumed not to give important contributions in the scattering processes, the s-channel quark-antiquark (q q) annihilation interactions are not included as a first step. The results show a strong attraction between and K, which consequently results in a K quasi-bound state with about 17 MeV binding energy, unlike the case of K which is unbound. When the channel coupling of K and K is considered, a sharp resonance state near 1670 MeV with spin-parity JP=1/2- is found. The narrow gap of the K and K thresholds, the strong attraction between and K, and the sizeable off-diagonal matrix elements of K and K are responsible for the appearance of this resonance.

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