D. Suppa
Published 2002-05-10Version 1
We present an analitical study of the dynamical process of the approach to steady state for a driven diffusive system represented by the microemulsion phase of a ternary mixture. The external applied field is given by a plane Couette shear flow and the problem is studied within the framework of a time-dependent Ginzburg-Landau model. A Fokker-Planck equation for the probability distribution of the concentration fluctuations is developed in a self-consistent one-loop approximation and solved exactly, giving an analytical expression for the dynamic correlation functions of the system. For comparison to experimental work, we also show grey-scale plots of the scattering function at different times during the dynamical process for two different shear rates.
Comments: 14 pages, 3 figures. To appear on Physica A
Journal: Physica A, 320 (2003) 97
The two particle-hole pairs contribution to the dynamic correlation functions of quantum integrable models
Dynamical process of a bit-width reduced Ising model with simulated annealing
One-Dimensional Impenetrable Anyons in Thermal Equilibrium. II. Determinant Representation for the Dynamic Correlation Functions
