Condensed Matter Theory

The interplay between hydrodynamic and Brownian fluctuations in sedimenting colloidal suspensions

(2007)

Authors:

JT Padding, AA Louis

A Three Dimensional Kasteleyn Transition: Spin Ice in a [100] Field

ArXiv 0710.0976 (2007)

Authors:

Ludovic DC Jaubert, JT Chalker, Peter CW Holdsworth, R Moessner

Abstract:

We examine the statistical mechanics of spin-ice materials with a [100] magnetic field. We show that the approach to saturated magnetisation is, in the low-temperature limit, an example of a 3D Kasteleyn transition, which is topological in the sense that magnetisation is changed only by excitations that span the entire system. We study the transition analytically and using a Monte Carlo cluster algorithm, and compare our results with recent data from experiments on Dy2Ti2O7.

Effect of Landau Level Mixing on Braiding Statistics

(2007)

Competitive agents in a market: Statistical physics of the minority game

PHYSICA A 384:1 (2007) 128-132

Abstract:

A brief review is presented of the minority game, a simple frustrated many-body system stimulated by considerations of a market of competitive speculative agents. Its cooperative behaviour exhibits phase transitions and both ergodic and non-ergodic regimes. It provides novel challenges to statistical physics, reminiscent of those of mean-field spin glasses. (C) 2007 Elsevier B.V. All rights reserved.

Aggregation kinetics of stiff polyelectrolytes in the presence of multivalent salt.

Phys Rev E Stat Nonlin Soft Matter Phys 76:4 Pt 1 (2007) 041801

Authors:

Hossein Fazli, Ramin Golestanian

Abstract:

Using molecular dynamics simulations, the kinetics of bundle formation for stiff polyelectrolytes such as actin is studied in the solution of multivalent salt. The dominant kinetic mode of aggregation is found to be the case of one end of one rod meeting others at a right angle due to electrostatic interactions. The kinetic pathway to bundle formation involves a hierarchical structure of small clusters forming initially and then feeding into larger clusters, which is reminiscent of the flocculation dynamics of colloids. For the first few cluster sizes, the Smoluchowski formula for the time evolution of the cluster size gives a reasonable account of the results of our simulation without a single fitting parameter. The description using the Smoluchowski formula provides evidence for the aggregation time scale to be controlled by diffusion, with no appreciable energy barrier to overcome.