The investigation of light sea-quark effects in lattice QCD with dynamical Wilson fermions requires both larger physical volumes and finer lattice resolutions than achieved previously. As high-end supercomputers like the 512-node APE Tower provide the compute power to perform a major step towards the chiral limit (TχL), we have launched a feasibility study on a 243 × 40 lattice. We approach the chiral limit while refining the resolution-, using the standard Wilson fermion action. Following previous work, our Hybrid Monte Carlo simulation runs at β = 5.6 and two Κ-values, 0.1575 and 0.158. From our study, we are confident that, for the APE Tower, a realistic working point has been found corresponding to a volume of 2 fm3, with chirality characterized by 1/mπa ≈ 5.6.
Full QCD with dynamical Wilson fermions on a 24^3 × 40-lattice - A feasibility study
Conti, L.;
1997-01-01
Abstract
The investigation of light sea-quark effects in lattice QCD with dynamical Wilson fermions requires both larger physical volumes and finer lattice resolutions than achieved previously. As high-end supercomputers like the 512-node APE Tower provide the compute power to perform a major step towards the chiral limit (TχL), we have launched a feasibility study on a 243 × 40 lattice. We approach the chiral limit while refining the resolution-, using the standard Wilson fermion action. Following previous work, our Hybrid Monte Carlo simulation runs at β = 5.6 and two Κ-values, 0.1575 and 0.158. From our study, we are confident that, for the APE Tower, a realistic working point has been found corresponding to a volume of 2 fm3, with chirality characterized by 1/mπa ≈ 5.6.| File | Dimensione | Formato | |
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