Search for the possible S=+1 Pentaquark states in Quenched Lattice QCD

Abstract

We study spin 12 hadronic states in quenched lattice QCD to search for a possible S=+1 pentaquark resonance. Simulations are carried out on 83× 24, 103× 24, 123× 24 and 163× 24 lattices at β=5.7 at the quenched level with the standard plaquette gauge action and the Wilson quark action. We adopt a Dirichlet boundary condition in the time direction for the quark to circumvent the possible contaminations due to the (anti)periodic boundary condition for the quark field, which are peculiar to the pentaquark. By diagonalizing the 2× 2 correlation matrices constructed from two independent operators with the quantum numbers (I,J)=(0,12), we successfully obtain the energies of the lowest state and the 2nd-lowest state in this channel. The analysis of the volume dependence of the energies and spectral weight factors indicates that a resonance state is likely to exist slightly above the NK threshold in (I,JP)=(0,12-) channel.

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