Add to ORKGWe investigate particle dynamics in nearly hard sphere colloidal crystals submitted to a steady shear flow. Both the fluctuations of single colloids and the collective motion of crystalline layers as a whole are studied by using a home-built counter rotating shear cell in combination with confocal microscopy. Firstly, our real space observations confirm the global structure and orientation as well as the collective zigzag motion as found by early scattering experiments. Secondly, dynamic processes accompanying the shear melting transition are followed on the particle level. Local rearrangements in the crystal are seen to occur more frequently with increasing shear rate. This shear-enhanced particle mobility is quantified by measuring the ra...
We use Brownian dynamics simulations in combination with the umbrella sampling technique to study th...
doi:10.1088/0953-8984/16/38/010 We report on novel possibilities for studying colloidal suspensions ...
We propose a theory of shear-induced melting of colloidal crystals based on a nonequilibrium general...
We investigate particle dynamics in nearly hard sphere colloidal crystals submitted to a steady shea...
Shear-induced melting and crystallization were investigated by confocal microscopy in concentrated c...
We investigate the effect of shear flow on the microstructure of colloidal suspensions by means of m...
A systematic experimental study of dispersions of charged colloidal spheres is presented on the effe...
For a system of Brownian particles interacting via a soft exponential potential we investigate the ...
Colloidal crystals under steady shear flow are known to melt by a first order transition. At high sh...
Phenomena such as shear thinning and thickening, occurring when complex materials are exposed to ext...
A systematic experimental study of dispersions of charged colloidal spheres is presented on the effe...
Phenomena such as shear thinning and thickening, occurring when complex materials are exposed to ext...
The non-equilibrium phase behavior of a colloidal hard-sphere fluid under oscillatory shear was inve...
Hard sphere colloidal particles are a basic model system to study phase transitions, self-assembly a...
Shear transformations, as fundamental rearrangement events operating in local regions, hold the key ...
We use Brownian dynamics simulations in combination with the umbrella sampling technique to study th...
doi:10.1088/0953-8984/16/38/010 We report on novel possibilities for studying colloidal suspensions ...
We propose a theory of shear-induced melting of colloidal crystals based on a nonequilibrium general...
We investigate particle dynamics in nearly hard sphere colloidal crystals submitted to a steady shea...
Shear-induced melting and crystallization were investigated by confocal microscopy in concentrated c...
We investigate the effect of shear flow on the microstructure of colloidal suspensions by means of m...
A systematic experimental study of dispersions of charged colloidal spheres is presented on the effe...
For a system of Brownian particles interacting via a soft exponential potential we investigate the ...
Colloidal crystals under steady shear flow are known to melt by a first order transition. At high sh...
Phenomena such as shear thinning and thickening, occurring when complex materials are exposed to ext...
A systematic experimental study of dispersions of charged colloidal spheres is presented on the effe...
Phenomena such as shear thinning and thickening, occurring when complex materials are exposed to ext...
The non-equilibrium phase behavior of a colloidal hard-sphere fluid under oscillatory shear was inve...
Hard sphere colloidal particles are a basic model system to study phase transitions, self-assembly a...
Shear transformations, as fundamental rearrangement events operating in local regions, hold the key ...
We use Brownian dynamics simulations in combination with the umbrella sampling technique to study th...
doi:10.1088/0953-8984/16/38/010 We report on novel possibilities for studying colloidal suspensions ...
We propose a theory of shear-induced melting of colloidal crystals based on a nonequilibrium general...