Add to ORKGWe report molecular-dynamics simulations of the anisotropic diffusion of infinitely thin platelets in the nematic phase. Our simulations are used to distinguish between the predictions of two different theories. The first theory, based on a mapping of the nematic phase of ellipsoidal particles on the hard-sphere fluid, predicts that both the longitudinal and the transverse diffusion constants decrease monotonically with increasing density. This is in stark contrast to a scaling argument which suggests that the transverse diffusion constant of platelets in the nematic phase in fact diverges with increasing density. Our simulations support the scaling argument
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
The phase behavior of model colloidal systems containing platelets and polymer is investigated using...
Molecular dynamics simulations of diffusion of isolated tagged spheres in liquid crystalline molecul...
Molecular dynamics computer simulations are used to determine the self-diffusion coefficients for a ...
A model of translational diffusion in the nematic phase is proposed. The generalized free-volume app...
An affine transformation model is applied to the diffusion coefficients of perfectly aligned and par...
We study the phase behavior of model colloidal systems composed of infinitely thin hard platelets, w...
We study the superdiffusion of driven colloidal particles dispersed in a nematic liquid crystal. Whi...
We study the layer-to-layer diffusion in smectic-A liquid crystals of colloidal hard rods with diffe...
We find in a model system of thermotropic liquid crystals that the translational diffusion coefficie...
We report molecular dynamics simulations of confined liquid crystals using the Gay–Berne–Kihara mode...
We report molecular dynamics simulations of confined liquid crystals using the Gay–Berne–Kihara mode...
Detailed molecular dynamics simulations of the rotational and the translational motions of Gay-Berne...
Detailed molecular dynamics simulations of the rotational and the translational motions of Gay-Berne...
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
The phase behavior of model colloidal systems containing platelets and polymer is investigated using...
Molecular dynamics simulations of diffusion of isolated tagged spheres in liquid crystalline molecul...
Molecular dynamics computer simulations are used to determine the self-diffusion coefficients for a ...
A model of translational diffusion in the nematic phase is proposed. The generalized free-volume app...
An affine transformation model is applied to the diffusion coefficients of perfectly aligned and par...
We study the phase behavior of model colloidal systems composed of infinitely thin hard platelets, w...
We study the superdiffusion of driven colloidal particles dispersed in a nematic liquid crystal. Whi...
We study the layer-to-layer diffusion in smectic-A liquid crystals of colloidal hard rods with diffe...
We find in a model system of thermotropic liquid crystals that the translational diffusion coefficie...
We report molecular dynamics simulations of confined liquid crystals using the Gay–Berne–Kihara mode...
We report molecular dynamics simulations of confined liquid crystals using the Gay–Berne–Kihara mode...
Detailed molecular dynamics simulations of the rotational and the translational motions of Gay-Berne...
Detailed molecular dynamics simulations of the rotational and the translational motions of Gay-Berne...
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
An anisotropic heat diffusion coefficient is introduced in order to study some interfacial growth ph...
The phase behavior of model colloidal systems containing platelets and polymer is investigated using...