A simple microcanonical strategy for the simulation of first-order phase transitions is proposed. At variance with flat-histogram methods, there is no iterative parameters optimization nor long waits for tunneling between the ordered and the disordered phases. We test the method in the standard benchmark: the Q-states Potts model (Q 10 in two dimensions and Q = 4 in D = 3). We develop a cluster algorithm for this model, obtaining accurate results for systems with more than 10^(6) spins
In the first part of this thesis, a stochastic adaptation of the microcanonical simulation method is...
We present a detailed numerical study on the effects of adding quenched impurities to a three dimens...
We investigate the first-order phase transitions of the q-state Potts models with q = 5, 6, 7, and 8...
BERG BA, Neuhaus T. MULTICANONICAL ENSEMBLE - A NEW APPROACH TO SIMULATE 1ST-ORDER PHASE-TRANSITIONS...
BILLOIRE A, LACAZE R, MOREL A, GUPTA S, IRBACK A, Petersson B. DYNAMICS NEAR A 1ST-ORDER PHASE-TRANS...
We have simulated the 10-state 2d Potts model with the Metropolis and Swendsen-Wang algorithms, in o...
International audienceThe phase diagram of the q-state Potts model in fractal dimensions is studied ...
BERG BA, Neuhaus T. MULTICANONICAL ALGORITHMS FOR 1ST ORDER PHASE-TRANSITIONS. PHYSICS LETTERS B. 19...
The two-dimensional,q-state (q>4) Potts model is used as a testing ground for approximate theories o...
We describe the canonical and microcanonical Monte Carlo algorithms for different systems that can b...
BILLOIRE A, Neuhaus T, BERG B. OBSERVATION OF FSS FOR A 1ST-ORDER PHASE-TRANSITION. NUCLEAR PHYSICS ...
We implemented a parallel version of the multicanonical algorithm and applied it to a variety of sys...
We present a Monte Carlo algorithm that facilitates efficient parallel tempering simulations of the ...
AbstractWe implemented a parallel version of the multicanonical algorithm and applied it to a variet...
We compare the transition barrier that accompanies a first-order phase transition in the canonical a...
In the first part of this thesis, a stochastic adaptation of the microcanonical simulation method is...
We present a detailed numerical study on the effects of adding quenched impurities to a three dimens...
We investigate the first-order phase transitions of the q-state Potts models with q = 5, 6, 7, and 8...
BERG BA, Neuhaus T. MULTICANONICAL ENSEMBLE - A NEW APPROACH TO SIMULATE 1ST-ORDER PHASE-TRANSITIONS...
BILLOIRE A, LACAZE R, MOREL A, GUPTA S, IRBACK A, Petersson B. DYNAMICS NEAR A 1ST-ORDER PHASE-TRANS...
We have simulated the 10-state 2d Potts model with the Metropolis and Swendsen-Wang algorithms, in o...
International audienceThe phase diagram of the q-state Potts model in fractal dimensions is studied ...
BERG BA, Neuhaus T. MULTICANONICAL ALGORITHMS FOR 1ST ORDER PHASE-TRANSITIONS. PHYSICS LETTERS B. 19...
The two-dimensional,q-state (q>4) Potts model is used as a testing ground for approximate theories o...
We describe the canonical and microcanonical Monte Carlo algorithms for different systems that can b...
BILLOIRE A, Neuhaus T, BERG B. OBSERVATION OF FSS FOR A 1ST-ORDER PHASE-TRANSITION. NUCLEAR PHYSICS ...
We implemented a parallel version of the multicanonical algorithm and applied it to a variety of sys...
We present a Monte Carlo algorithm that facilitates efficient parallel tempering simulations of the ...
AbstractWe implemented a parallel version of the multicanonical algorithm and applied it to a variet...
We compare the transition barrier that accompanies a first-order phase transition in the canonical a...
In the first part of this thesis, a stochastic adaptation of the microcanonical simulation method is...
We present a detailed numerical study on the effects of adding quenched impurities to a three dimens...
We investigate the first-order phase transitions of the q-state Potts models with q = 5, 6, 7, and 8...