论文信息 - Scaling and hydrodynamic effects in lamellar ordering

Scaling and hydrodynamic effects in lamellar ordering

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) ~ Lαf[(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.

[1] Zhi-Feng Huang,et al. Tilt grain boundary instabilities in three-dimensional lamellar patterns. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.

[2] P. Coveney,et al. Self-assembly of the gyroid cubic mesophase: Lattice-Boltzmann simulations , 2003, cond-mat/0310390.

[3] Wence Wang,et al. Pressure dependence of the elastic constants and vibrational anharmonicity of Pd39Ni10CU30P21 bulk metallic glass , 2003 .

[4] P. Gennes,et al. The physics of liquid crystals , 1974 .