An analysis of the dynamics of colloids in shear flow can be challenging because of the superposition of diffusion and advection. We present a method that separates the two motions, starting from the time-dependent particle coordinates. The restriction of the tracking to flow lanes and the subtraction of estimated advective displacements are combined in an iterative scheme that eventually makes the spatial segmentation redundant. Tracking errors due to the neglect of lateral diffusion are avoided, while drifts parallel and perpendicular to the flow are eliminated. After explaining the principles of our method, we validate it against both computer simulations and experiments. A critical overall test is provided by the mean square displacemen...
We study the fluctuating motion of a Brownian-sized probe particle as it is dragged by a constant ex...
In flows of granular material, collisions between individual particles result in the movement of par...
In the absence of advection, confined diffusion characterizes transport in many natural and artific...
An analysis of the dynamics of colloids in shear flow can be challenging because of the superpositio...
Colloidal suspensions flowing through microchannels were studied for the effects of both the shear f...
The motion of a single Brownian probe particle subjected to a constant external body force and immer...
We will report on a systematic study, aimed at understanding the dynamics of colloidal hard spheres ...
We investigate active particle-tracking microrheology in a colloidal dispersion by Brownian dynamics...
We investigate the effect of shear flow on the microstructure of colloidal suspensions by means of m...
The shear-induced particle self-diffusivity in a concentrated suspension (20%–50% solids volume frac...
The purpose of this thesis is to study the flow of dense colloidal suspensions into micronsized c...
After a short introduction to colloids, in this presentation I will discuss two different phenomena:...
The shear-induced self-diffusion and rheology of concentrated suspensions of noncolloidal hard spher...
The shear-induced self-diffusion and rheology of concentrated suspensions of noncolloidal hard spher...
A theoretical diffusivity equation was proposed by Einstein [A. Einstein, Investigations of the Theo...
We study the fluctuating motion of a Brownian-sized probe particle as it is dragged by a constant ex...
In flows of granular material, collisions between individual particles result in the movement of par...
In the absence of advection, confined diffusion characterizes transport in many natural and artific...
An analysis of the dynamics of colloids in shear flow can be challenging because of the superpositio...
Colloidal suspensions flowing through microchannels were studied for the effects of both the shear f...
The motion of a single Brownian probe particle subjected to a constant external body force and immer...
We will report on a systematic study, aimed at understanding the dynamics of colloidal hard spheres ...
We investigate active particle-tracking microrheology in a colloidal dispersion by Brownian dynamics...
We investigate the effect of shear flow on the microstructure of colloidal suspensions by means of m...
The shear-induced particle self-diffusivity in a concentrated suspension (20%–50% solids volume frac...
The purpose of this thesis is to study the flow of dense colloidal suspensions into micronsized c...
After a short introduction to colloids, in this presentation I will discuss two different phenomena:...
The shear-induced self-diffusion and rheology of concentrated suspensions of noncolloidal hard spher...
The shear-induced self-diffusion and rheology of concentrated suspensions of noncolloidal hard spher...
A theoretical diffusivity equation was proposed by Einstein [A. Einstein, Investigations of the Theo...
We study the fluctuating motion of a Brownian-sized probe particle as it is dragged by a constant ex...
In flows of granular material, collisions between individual particles result in the movement of par...
In the absence of advection, confined diffusion characterizes transport in many natural and artific...