S-wave scattering of strangeness -3 baryons

Abstract

We explore the interactions of two strangeness -3 baryons in multiple spin channels with lattice QCD. This system provides an ideal laboratory for exploring the interactions of multi-baryon systems with minimal dependence on light quark masses. Model calculations of the two-- system in two previous works have obtained conflicting results, which can be resolved by lattice QCD. The lattice calculations are performed using two different volumes with L2.5 and 3.9 fm on anisotropic clover lattices at mπ 390 MeV with a lattice spacing of as 0.123 fm in the spatial direction and atas/3.5 in the temporal direction. Using multiple interpolating operators from a non-displaced source, we present scattering information for two ground state - baryons in both the S=0 and S=2 channels. For S=0, kδ is extracted at two volumes, which lead to an extrapolated scattering length of aS=0=0.16 0.22 \ fm, indicating a weakly repulsive interaction. Additionally, for S=2, two separate highly repulsive states are observed. We also present results on the interactions of the excited strangeness -3, spin-1/2 states with the ground spin-3/2 states for the spin-1 and spin-2 channels. Results for these interactions are consistent with attractive behavior.