SU(3) Lattice QCD Study for Static Three-Quark Potential

Abstract

We study the static three-quark (3Q) potential in detail using SU(3) lattice QCD with 123 × 24 at β=5.7 and 163 × 32 at β=5.8, 6.0 at the quenched level. For more than 200 patterns of the 3Q systems, we numerically derive 3Q ground-state potential V3Q from the 3Q Wilson loop with the smearing technique, which reduces excited-state contaminations. The lattice QCD data of V3Q are well reproduced within a few % deviation by a sum of a constant, the two-body Coulomb term and the three-body linear confinement term σ3Q Lmin, with Lmin the minimal value of total length of color flux tubes linking the three quarks. From the comparison with the Q- Q potential, we find a universality of the string tension as σ3Q σ Q Q and the one-gluon-exchange result for Coulomb coefficients, A3Q 12 A Q Q.

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