We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means of ten rotating optical tweezers arranged on a circle. Because of the viscous drag, the trap rotation leads to the onset of a tilting force in the corotating reference frame, so that in that frame the system can be described as an overdamped Brownian particle in a tilted periodic potential. The excellent agreement of the velocity and diffusion coefficient as a function of rotating frequency with theoretical predictions allowed us to extract the main parameters characterizing the system--the coefficient of free thermal diffusion and the potential corrugation depth--from the experimental results.publishe
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
We simulate the transport of colloidal particles driven by a static and homogeneous drift force, and...
The diffusion properties of overdamped particles moving in spatially symmetrical periodic potentials...
Evstigneev M, Zvyagolskaya O, Bleil S, Eichhorn R, Bechinger C, Reimann P. Diffusion of colloidal pa...
Evstigneev M, von Gehlen S, Reimann P. Interaction-controlled Brownian motion in a tilted periodic p...
An exact analytical expression for the effective diffusion coefficient of an overdamped Brownian par...
Diffusion of overdamped Brownian particles in sawtooth potentials subject to a spatially uniform til...
Reimann P, Van den Broeck C, Linke H, Hänggi P, Rubi JM, Perez-Madrid A. Giant acceleration of free ...
The paper describes diffusion of particles in a tilted spatially periodic potential under the action...
We present an experimental realization of a biased optical periodic potential in the low friction li...
Reimann P, Eichhorn R. Weak Disorder Strongly Improves the Selective Enhancement of Diffusion in a T...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
The restricted rotational diffusion of an axially symmetric particle is simulated by the Brownian dy...
We present an experimental realization of a biased optical periodic potential in the low friction li...
We consider the motion of an underdamped Brownian particle in a tilted periodic potential ...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
We simulate the transport of colloidal particles driven by a static and homogeneous drift force, and...
The diffusion properties of overdamped particles moving in spatially symmetrical periodic potentials...
Evstigneev M, Zvyagolskaya O, Bleil S, Eichhorn R, Bechinger C, Reimann P. Diffusion of colloidal pa...
Evstigneev M, von Gehlen S, Reimann P. Interaction-controlled Brownian motion in a tilted periodic p...
An exact analytical expression for the effective diffusion coefficient of an overdamped Brownian par...
Diffusion of overdamped Brownian particles in sawtooth potentials subject to a spatially uniform til...
Reimann P, Van den Broeck C, Linke H, Hänggi P, Rubi JM, Perez-Madrid A. Giant acceleration of free ...
The paper describes diffusion of particles in a tilted spatially periodic potential under the action...
We present an experimental realization of a biased optical periodic potential in the low friction li...
Reimann P, Eichhorn R. Weak Disorder Strongly Improves the Selective Enhancement of Diffusion in a T...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
The restricted rotational diffusion of an axially symmetric particle is simulated by the Brownian dy...
We present an experimental realization of a biased optical periodic potential in the low friction li...
We consider the motion of an underdamped Brownian particle in a tilted periodic potential ...
This project utilizes the optical tweezer system combined with digital video microscopy to study the...
We simulate the transport of colloidal particles driven by a static and homogeneous drift force, and...
The diffusion properties of overdamped particles moving in spatially symmetrical periodic potentials...