Cecile Monthus 1 European Physical Journal B 13 (2000) 111-130 To study the localization of random heteropolymers at an interface separating two selective solvents within the model of Garel, Huse, Leibler and Orland, Europhys. Lett. {\\bf 8} 9 (1989), we propose an approach based on a disorder-dependent real space renormalization procedure. This approach allows to recover that […]
Jesper Lykke Jacobsen 1 Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 61 (2000) R6060-R6062 We numerically calculate the exponent for the disorder averaged and fixed-sample decay of the energy-energy correlator in the q-state random-bond Potts model. Our results are in good agreement with a two-loop expansion (cond-mat/9910181) around q=2 recently found from perturbative renormalisation group
Multiscaling of energy correlations in the random-bond Potts model Lire la suite »
R. Voituriez 1, S. Nechaev 1, 2 Journal of Physics A 33 (2000) 5631-5652 Multifractal properties of the distribution of topological invariants for a model of trajectories randomly entangled with a nonsymmetric lattice of obstacles are investigated. Using the equivalence of the model to random walks on a locally nonsymmetric tree, statistical properties of topological invariants, such as drift and
Multifractality of entangled random walks and non-uniform hyperbolic spaces Lire la suite »
Madsen, L.B., Schlagheck, P., Lambropoulos, P. Physical Review A 62 (2000) 062719
Laser-Induced Transitions between Triply Excited Hollow States Lire la suite »
Jérôme Houdayer 1, Florent Krzakala 2, Olivier C. Martin 2 European Physical Journal B 18 (2000) 467-477 We numerically extract large-scale excitations above the ground state in the 3-dimensional Edwards-Anderson spin glass with Gaussian couplings. We find that associated energies are O(1), in agreement with the mean field picture. Of further interest are the position-space properties of these excitations. First, our study
Large-scale low-energy excitations in 3-d spin glasses Lire la suite »
Harold U. Baranger 1, 2, Denis Ullmo 3, Leonid I. Glazman 4 Physical Review B 61 (2000) R2425-2428 We investigate the spin of the ground state of a geometrically confined many-electron system. For atoms, shell structure simplifies this problem– the spin is prescribed by the well-known Hund’s rule. In contrast, quantum dots provide a controllable setting for studying the interplay of quantum interference and
F. Von Oppen 1, D. Ullmo 2, H. U. Baranger 3 Physical Review B 62 (2000) 1935-1942 We consider the contribution of electron-electron interactions to the orbital magnetization of a two-dimensional electron gas, focusing on the ballistic limit in the regime of negligible Landau-level spacing. This regime can be described by combining diagrammatic perturbation theory with semiclassical techniques. At sufficiently low
Interaction-Induced Magnetization of the Two-Dimensional Electron Gas Lire la suite »
Christophe Texier 1 Journal of Physics A 33 (2000) 6095-6128 We study the distribution of the $n$-th energy level for two different one-dimensional random potentials. This distribution is shown to be related to the distribution of the distance between two consecutive nodes of the wave function. We first consider the case of a white noise potential and
O. Benichou 1, 2, J. Klafter, M. Moreau 2, G. Oshanin 2 Physical Review E: Statistical, Nonlinear, and Soft Matter Physics 62 (2000) 3327-3339 We study the dynamics of a carrier, which performs a biased motion under the influence of an external field E, in an environment which is modeled by dynamic percolation and created by hard-core particles. The particles move randomly on
Generalized model for dynamic percolation Lire la suite »
Dembrowski, C., Graf, H.D., Heine, A., Rehfeld, H., Richter, A., Schmit, C. Physical Review E 62 (2000) R4516-R4519
