Add to ORKGMethods for studying droplets in models with quenched disorder are critically examined. Low energy excitations in two dimensional models are investigated by finding minimal energy interior excitations and by computing the effect of bulk perturbations. The numerical data support the assumptions of compact droplets and a single exponent for droplet energy scaling. Analytic calculations show how strong corrections to power laws can result when samples and droplets are averaged over. Such corrections can explain apparent discrepancies in several previous numerical results for spin glasse
The effect of open boundary conditions for four models with quenched disorder are studied in finite ...
A controversial issue in spin glass theory is whether mean field correctly describes 3-dimensional s...
Our research group will consider the study of the statistical mechanics properties, especially at eq...
Methods for studying droplets in models with quenched disorder are critically examined. Low energy e...
An approach to determine the value of the zero-temperature thermal exponent u in spin glasses is pre...
The low lying excited states of the three-dimensional minimum matching problem are studied numerical...
Using a stochastic algorithm introduced in a previous paper, we study the finite size volume correct...
We discuss the zero-temperature susceptibility of elastic manifolds with quenched randomness. It div...
Recently extended precise numerical methods and droplet scaling arguments allow for a coherent pictu...
We consider the effect of droplet excitations in the random first-order transition theory of glasses...
We investigate the nature of the low-energy, large-scale excitations in the three-dimensional Edward...
4 pages, 3 figures, (v2) revised version, (v3) corrected typosA detailed investigation of lowest exc...
The magnetic critical properties of two-dimensional spin glasses are controversial.Using exact groun...
Membres du Jury : Alain Billoire (Rapporteur), Robert CORI (Examinateur), Bernard Derrida (Président...
International audienceWe study the interface energy σ as a function of disorder in two-dimensional I...
The effect of open boundary conditions for four models with quenched disorder are studied in finite ...
A controversial issue in spin glass theory is whether mean field correctly describes 3-dimensional s...
Our research group will consider the study of the statistical mechanics properties, especially at eq...
Methods for studying droplets in models with quenched disorder are critically examined. Low energy e...
An approach to determine the value of the zero-temperature thermal exponent u in spin glasses is pre...
The low lying excited states of the three-dimensional minimum matching problem are studied numerical...
Using a stochastic algorithm introduced in a previous paper, we study the finite size volume correct...
We discuss the zero-temperature susceptibility of elastic manifolds with quenched randomness. It div...
Recently extended precise numerical methods and droplet scaling arguments allow for a coherent pictu...
We consider the effect of droplet excitations in the random first-order transition theory of glasses...
We investigate the nature of the low-energy, large-scale excitations in the three-dimensional Edward...
4 pages, 3 figures, (v2) revised version, (v3) corrected typosA detailed investigation of lowest exc...
The magnetic critical properties of two-dimensional spin glasses are controversial.Using exact groun...
Membres du Jury : Alain Billoire (Rapporteur), Robert CORI (Examinateur), Bernard Derrida (Président...
International audienceWe study the interface energy σ as a function of disorder in two-dimensional I...
The effect of open boundary conditions for four models with quenched disorder are studied in finite ...
A controversial issue in spin glass theory is whether mean field correctly describes 3-dimensional s...
Our research group will consider the study of the statistical mechanics properties, especially at eq...