Abstract
We study the kinetics of domain growth of fluid mixtures quenched from a
disordered to a lamellar phase. At low viscosities, in two dimensions, when hydrodynamic
modes become important, dynamical scaling is verified in the form C(k, t) ~ L
?
f[(k - kM)L],
where C is the structure factor with maximum at kM and L is a typical length with logarithmic
growth at late times. The presence of extended defects can explain the behavior of L. Three-dimensional simulations confirm that diffuse grain boundaries inhibit complete ordering of
lamellae. Applied shear flow alleviates frustration and gives power law growth at all times.
Anno
2005
Autori IAC
Tipo pubblicazione
Altri Autori
A. Xu; G. Gonnella; A. Lamura; G. Amati; F. Massaioli
Editore
EDP sciences
Rivista
Europhysics letters (Print)
