Add to ORKGWe present a Monte-Carlo algorithm for the simulation of the all-order strong coupling expansion of the Z2 gauge theory. This random surface ensemble is equivalent to the standard formulation, but allows to measure some quantities, like Polyakov loop correlators or excess free energies, with an accuracy that could not have been easily achieved with traditional simulation methods. One interesting application of the algorithm is the investigation of effective string theories
Tensor network states, and in particular projected entangled pair states (PEPS) have been a strong a...
Gauge theories establish the standard model of particle physics, and lattice gauge theory (LGT) calc...
A model of “planar random surfaces without spikes” on hypercubical lattices was introduced some year...
We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of m...
We study a random surface representation of Wilson loops in Z(2) gauge theory. The weights consist o...
We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of m...
In this work, we study various Monte Carlo methods for lattice gauge theories. The mass of the 0+ gl...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
A Monte Carlo process for the simulation of random walks and random surfaces is proposed. It is base...
The U(N) gauge theory on a D-dimensional lattice is reformulated as a theory of lattice strings (a s...
A ``forward walking'' Quantum Monte Carlo (QMC) algorithm has been developed to calculate correlatio...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
AbstractWe reformulate the O(N) sigma model as a loop model whose configurations are the all-order s...
Monte Carlo simulations done for four-dimensional lattice gauge systems are described, where the gau...
This volume is the most up-to-date review on Lattice Gauge Theories and Monte Carlo Simulations. It ...
Tensor network states, and in particular projected entangled pair states (PEPS) have been a strong a...
Gauge theories establish the standard model of particle physics, and lattice gauge theory (LGT) calc...
A model of “planar random surfaces without spikes” on hypercubical lattices was introduced some year...
We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of m...
We study a random surface representation of Wilson loops in Z(2) gauge theory. The weights consist o...
We present an exact Monte Carlo algorithm designed to sample theories where the energy is a sum of m...
In this work, we study various Monte Carlo methods for lattice gauge theories. The mass of the 0+ gl...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
A Monte Carlo process for the simulation of random walks and random surfaces is proposed. It is base...
The U(N) gauge theory on a D-dimensional lattice is reformulated as a theory of lattice strings (a s...
A ``forward walking'' Quantum Monte Carlo (QMC) algorithm has been developed to calculate correlatio...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
AbstractWe reformulate the O(N) sigma model as a loop model whose configurations are the all-order s...
Monte Carlo simulations done for four-dimensional lattice gauge systems are described, where the gau...
This volume is the most up-to-date review on Lattice Gauge Theories and Monte Carlo Simulations. It ...
Tensor network states, and in particular projected entangled pair states (PEPS) have been a strong a...
Gauge theories establish the standard model of particle physics, and lattice gauge theory (LGT) calc...
A model of “planar random surfaces without spikes” on hypercubical lattices was introduced some year...