We formulate a single-cluster Monte Carlo algorithm for the simulation of the random-cluster model. This algorithm is a generalization of the Wolff single-cluster method for the q-state Potts model to noninteger values q>1. Its results for static quantities are in a satisfactory agreement with those of the existing Swendsen-Wang-Chayes-Machta (SWCM) algorithm, which involves a full-cluster decomposition of random-cluster configurations. We explore the critical dynamics of this algorithm for several two-dimensional Potts and random-cluster models. For integer q, the single-cluster algorithm can be reduced to the Wolff algorithm, for which case we find that the autocorrelation functions decay almost purely exponentially, with dynamic exponent...
We introduce several infinite families of critical exponents for the random-cluster model and presen...
A cluster algorithm is presented for the simulation of the q-state Potts models in which the number ...
A general scheme for devising efficient cluster dynamics proposed in a previous paper [Phys. Rev. Le...
We formulate a single-cluster Monte Carlo algorithm for the simulation of the random-cluster model. ...
The random-cluster model has been widely studied as a unifying framework for spin systems, random gr...
We study the dynamic critical behavior of the Chayes-Machta dynamics for the Fortuin-Kasteleyn rando...
The random-cluster model has been widely studied as a unifying framework for random graphs, spin sys...
The random-cluster model of Fortuin and Kasteleyn contains as special cases the percolation, Ising, ...
Abstract. We review Sweeny’s algorithm for Monte Carlo simulations of the random cluster model. Stra...
We study the dynamic critical behavior of the Chayes-Machta dynamics for the Fortuin-Kasteleyn rando...
The Random Cluster Model offers an interesting reformulation of the Ising and Potts Models in the la...
AbstractThe importance-sampling Monte Carlo algorithm appears to be the universally optimal solution...
For d ≥ 2 and all q≥ q0(d) we give an efficient algorithm to approximately sample from the q-state f...
The importance-sampling Monte Carlo algorithm appears to be the universally optimal solution to the ...
The random-cluster model is a unifying framework for studying random graphs, spin systems and electr...
We introduce several infinite families of critical exponents for the random-cluster model and presen...
A cluster algorithm is presented for the simulation of the q-state Potts models in which the number ...
A general scheme for devising efficient cluster dynamics proposed in a previous paper [Phys. Rev. Le...
We formulate a single-cluster Monte Carlo algorithm for the simulation of the random-cluster model. ...
The random-cluster model has been widely studied as a unifying framework for spin systems, random gr...
We study the dynamic critical behavior of the Chayes-Machta dynamics for the Fortuin-Kasteleyn rando...
The random-cluster model has been widely studied as a unifying framework for random graphs, spin sys...
The random-cluster model of Fortuin and Kasteleyn contains as special cases the percolation, Ising, ...
Abstract. We review Sweeny’s algorithm for Monte Carlo simulations of the random cluster model. Stra...
We study the dynamic critical behavior of the Chayes-Machta dynamics for the Fortuin-Kasteleyn rando...
The Random Cluster Model offers an interesting reformulation of the Ising and Potts Models in the la...
AbstractThe importance-sampling Monte Carlo algorithm appears to be the universally optimal solution...
For d ≥ 2 and all q≥ q0(d) we give an efficient algorithm to approximately sample from the q-state f...
The importance-sampling Monte Carlo algorithm appears to be the universally optimal solution to the ...
The random-cluster model is a unifying framework for studying random graphs, spin systems and electr...
We introduce several infinite families of critical exponents for the random-cluster model and presen...
A cluster algorithm is presented for the simulation of the q-state Potts models in which the number ...
A general scheme for devising efficient cluster dynamics proposed in a previous paper [Phys. Rev. Le...