Add to ORKGWe use statistical ensembles of worldline loops generated by random walk on hypercubic lattices to calculate matter determinants in background Yang-Mills fields
We study effective Polyakov loop models for SU(3) Yang-Mills theory at finite temperature. A compreh...
We explicitly calculate one-loop divergences for an arbitrary field theory model using the higher de...
The Monte Carlo simulation of Majorana fermions is discussed on the example of supersymmetric Yang-M...
We propose to calculate bosonic and fermionic determinants with some general field background, and t...
We use a discrete worldline representation in order to study the continuum limit of the one-loop exp...
AbstractA new version of the two-step multi-boson algorithm is developed with different fermion acti...
AbstractThe loop-gas approach to statistical physics provides an alternative, geometrical descriptio...
Previous investigations have shown that the canonical approach to simulating QCD at finite density i...
The monopole order parameter of QCD is computed in terms of gauge invariant field strength correlato...
We study the two-dimensional generalized Weingarten model reduced to a point, which interpolates red...
Monte Carlo simulations are carried out on the (3+1)-dimensional Z(2) anisotropic lattice model, and...
Supersymmetric Yang-Mills theory is formulated in six dimensions, without the use of anti-commuting ...
In non-abelian gauge theories without matter fields, expectation values of large Wilson loops and lo...
Worldline representations were established as a powerful tool for studying bosonic lattice field the...
We review our results for the simulation of the 2--d lattice Gross--Neveu model in a fermion loop re...
We study effective Polyakov loop models for SU(3) Yang-Mills theory at finite temperature. A compreh...
We explicitly calculate one-loop divergences for an arbitrary field theory model using the higher de...
The Monte Carlo simulation of Majorana fermions is discussed on the example of supersymmetric Yang-M...
We propose to calculate bosonic and fermionic determinants with some general field background, and t...
We use a discrete worldline representation in order to study the continuum limit of the one-loop exp...
AbstractA new version of the two-step multi-boson algorithm is developed with different fermion acti...
AbstractThe loop-gas approach to statistical physics provides an alternative, geometrical descriptio...
Previous investigations have shown that the canonical approach to simulating QCD at finite density i...
The monopole order parameter of QCD is computed in terms of gauge invariant field strength correlato...
We study the two-dimensional generalized Weingarten model reduced to a point, which interpolates red...
Monte Carlo simulations are carried out on the (3+1)-dimensional Z(2) anisotropic lattice model, and...
Supersymmetric Yang-Mills theory is formulated in six dimensions, without the use of anti-commuting ...
In non-abelian gauge theories without matter fields, expectation values of large Wilson loops and lo...
Worldline representations were established as a powerful tool for studying bosonic lattice field the...
We review our results for the simulation of the 2--d lattice Gross--Neveu model in a fermion loop re...
We study effective Polyakov loop models for SU(3) Yang-Mills theory at finite temperature. A compreh...
We explicitly calculate one-loop divergences for an arbitrary field theory model using the higher de...
The Monte Carlo simulation of Majorana fermions is discussed on the example of supersymmetric Yang-M...