Add to ORKGWe study the spinodal decomposition of a binary mixture in presence of fluid turbulence. Our study shows that the coarsening is arrested in presence of turbulence. The scale at which the coarsening is arrested can be estimated by means of the phenomenological argument proposed by Hinze [4] to estimate the maximum stable droplet diameter in turbulent emulsions
The evolution of the microstructure due to spinodal decomposition in phase separated mixtures has as...
We simulated the phase segregation of a metastable deeply quenched binary mixture. Our theoretical a...
The growth of random interfaces during the late stage spinodal decomposition for a near symmetric qu...
We study the spinodal decomposition of a binary mixture in presence of fluid turbulence. Our study s...
We study the competition between domain coarsening in a symmetric binary mixture below critical temp...
When a binary mixture is cooled below its critical temperature it undergoes a phase transition and t...
We study the competition between domain coarsening in a symmetric binary mixture below critical temp...
We study spinodal decomposition in the inverse-cascade regime of two dimensional turbulence in symme...
Phase separation between two fluids in two dimensions is investigated by means of direct numerical s...
Spinodal decomposition of deeply quenched mixtures is studied experimentally, with particular emphas...
We study the early stage of the phase separation of a binary mixture far from its critical point of ...
The spinodal decomposition of binary mixtures in uniform shear flow is studied in the context of the...
A scaling theory for spinodal decomposition in the inertial hydrodynamic regime is presented. The sc...
We use lattice-Boltzmann simulations to examine late stage spinodal decomposition in binary fluids, ...
The evolution of the microstructure due to spinodal decomposition in phase separated mixtures has as...
We simulated the phase segregation of a metastable deeply quenched binary mixture. Our theoretical a...
The growth of random interfaces during the late stage spinodal decomposition for a near symmetric qu...
We study the spinodal decomposition of a binary mixture in presence of fluid turbulence. Our study s...
We study the competition between domain coarsening in a symmetric binary mixture below critical temp...
When a binary mixture is cooled below its critical temperature it undergoes a phase transition and t...
We study the competition between domain coarsening in a symmetric binary mixture below critical temp...
We study spinodal decomposition in the inverse-cascade regime of two dimensional turbulence in symme...
Phase separation between two fluids in two dimensions is investigated by means of direct numerical s...
Spinodal decomposition of deeply quenched mixtures is studied experimentally, with particular emphas...
We study the early stage of the phase separation of a binary mixture far from its critical point of ...
The spinodal decomposition of binary mixtures in uniform shear flow is studied in the context of the...
A scaling theory for spinodal decomposition in the inertial hydrodynamic regime is presented. The sc...
We use lattice-Boltzmann simulations to examine late stage spinodal decomposition in binary fluids, ...
The evolution of the microstructure due to spinodal decomposition in phase separated mixtures has as...
We simulated the phase segregation of a metastable deeply quenched binary mixture. Our theoretical a...
The growth of random interfaces during the late stage spinodal decomposition for a near symmetric qu...