Lattice gauge theory. A challenge in large-scale computing
This book presents information on the following topics: QCD at finite temperature and baryon number density; critical behavior in onic matter; Monte Carlo renormalization group; the look-ahead fermion algorithm; the potential between static quarks in SU (2) lattice gauge theory with dynamical fermions; the t-expansion and lattice of QCD; lattice Higgs models; relaxation and correlations in time in a finite volume; topology in lattice gauge theory; hadron mass calculation on a 24/sup 3/ x 48 lattice; calculation of weak matrix elements; the chiral limit in lattice QCD; potentials; quenched hadron masses using a 16/sup 4/ lattice; a new method for inverting fermionic matrix; the GF11 supercomputer; parellel computing in lattice theory; the APE computer and lattice gauge theories; CRAY and QCD; and memory and learning in a class of neural network models.
- OSTI ID:
- 6924162
- Report Number(s):
- CONF-8511170-; TRN: 87-009273
- Resource Relation:
- Conference: Lattice gauge theory: a challenge in large scale computing conference, Wuppertal, F.R. Germany, 5 Nov 1985
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
LATTICE FIELD THEORY
MEETINGS
BAG MODEL
COLOR MODEL
COMPUTERIZED SIMULATION
FERMIONS
GAUGE INVARIANCE
HADRONS
HIGGS MODEL
LATTICE PARAMETERS
LEADING ABSTRACT
MASS
MONTE CARLO METHOD
QUANTUM CHROMODYNAMICS
QUARKS
SU GROUPS
SUPERCOMPUTERS
THERMODYNAMICS
ABSTRACTS
COMPOSITE MODELS
COMPUTERS
DIGITAL COMPUTERS
DOCUMENT TYPES
ELEMENTARY PARTICLES
EXTENDED PARTICLE MODEL
FIELD THEORIES
INVARIANCE PRINCIPLES
LIE GROUPS
MATHEMATICAL MODELS
PARTICLE MODELS
POSTULATED PARTICLES
QUANTUM FIELD THEORY
QUARK MODEL
SIMULATION
SYMMETRY GROUPS
645400* - High Energy Physics- Field Theory