Spin 3/2 Penta-quarks in anisotropic lattice QCD
Abstract
A high-precision mass measurement for the pentaquark (5Q) Theta+ in JP=3/2 channel is performed in anisotropic quenched lattice QCD using a large number of gauge configurations as Nconf=1000. We employ the standard Wilson gauge action at beta=5.75 and the O(a) improved Wilson (clover) quark action with kappa=0.1210(0.0010)0.1240 on a 123 × 96 lattice with the renormalized anisotropy as as/at = 4. The Rarita-Schwinger formalism is adopted for the interpolating fields. Several types of the interpolating fields with isospin I=0 are examined such as (a) the NK*-type, (b) the (color-)twisted NK*-type, (c) a diquark-type. The chiral extrapolation leads to only massive states, i.e., m5Q 2.1-2.2 GeV in JP=3/2- channel, and m5Q = 2.4-2.6 GeV in JP=3/2+ channel. The analysis with the hybrid boundary condition(HBC) is performed to investigate whether these states are compact 5Q resonances or not. No low-lying compact 5Q resonance states are found below 2.1GeV.
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