We study the motion of colloidal particles driven by a constant force over a periodic optical potential energy landscape. First, the average particle velocity is found as a function of the driving velocity and the wavelength of the optical potential energy landscape. The relationship between average particle velocity and driving velocity is found to be well described by a theoretical model treating the landscape as sinusoidal, but only at small trap spacings. At larger trap spacings, a nonsinusoidal model for the landscape must be used. Subsequently, the critical velocity required for a particle to move across the landscape is determined as a function of the wavelength of the landscape. Finally, the velocity of a particle driven at a veloci...
We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means...
Particles moving on crystalline surfaces and driven by external forces or flow fields can acquire ve...
We combine experiments and numerical simulations to investigate the emergence of clogging in a syste...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
We study the static and dynamic behaviour of colloidal rods in an optical potential energy landscape...
A colloidal particle is driven across a temporally oscillating onedimensional optical potential ener...
In this article we examine the dynamics of a colloidal particle driven by a modulated force over a s...
A two-layer colloidal system is developed for the study of colloidal diffusion over a two-dimensiona...
Using optical microscopy and multiparticle tracking techniques, we investigate the correlated diffus...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
Optical potential energy landscapes created using acousto-optical deflectors are characterized via s...
We study the trajectories of a single colloidal particle as it hops between two energy wells which a...
The collective dynamics of Brownian particles in porous structures is an important topic for both th...
Driven colloidal particles exhibit a number of interesting nonequilibrium effects. In order to study...
We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means...
Particles moving on crystalline surfaces and driven by external forces or flow fields can acquire ve...
We combine experiments and numerical simulations to investigate the emergence of clogging in a syste...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
We study the static and dynamic behaviour of colloidal rods in an optical potential energy landscape...
A colloidal particle is driven across a temporally oscillating onedimensional optical potential ener...
In this article we examine the dynamics of a colloidal particle driven by a modulated force over a s...
A two-layer colloidal system is developed for the study of colloidal diffusion over a two-dimensiona...
Using optical microscopy and multiparticle tracking techniques, we investigate the correlated diffus...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
Optical potential energy landscapes created using acousto-optical deflectors are characterized via s...
We study the trajectories of a single colloidal particle as it hops between two energy wells which a...
The collective dynamics of Brownian particles in porous structures is an important topic for both th...
Driven colloidal particles exhibit a number of interesting nonequilibrium effects. In order to study...
We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means...
Particles moving on crystalline surfaces and driven by external forces or flow fields can acquire ve...
We combine experiments and numerical simulations to investigate the emergence of clogging in a syste...