Three-quark ground-state potential in the SU(3) lattice QCD
Abstract
With the smearing technique, the three-quark (3Q) ground-state potential V 3Q is numerically extracted in the SU(3)c lattice QCD Monte Carlo simulation with 123 × 24 and β=5.7 at the quenched level. With accuracy better than a few %, V 3Q is well described by a sum of a constant C 3Q, the two-body Coulomb part -A 3QΣi<j 1| ri- rj| and the three-body linear confinement part σ 3Q L min, where L min denotes the minimal length of the color flux tube linking the three quarks. By comparing with the Q- Q potential, we find a universal feature of the string tension as σ 3Q σ Q Q and the one-gluon-exchange result for the Coulomb coefficient as A 3Q 12 A Q Q. All our results including the constant term are consistent with the requirement on the diquark limit in the lattice regularization.
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