We simulate the transport of colloidal particles driven by a static and homogeneous drift force, and subject to the optical potential created by two lattices of optical tweezers. The lattices of optical tweezers are parallel to each other, shifted, and rotated by a twist angle. Due to a negative interference between the potential of the two lattices, flat channels appear in the total optical potential. At specific twist angles, known as magic-angles, the flat channels percolate the entire system and the colloidal particles can then be transported using a weak external drift force. We characterize the transport in both square and hexagonal lattices of twisted optical tweezer
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis....
We show that dual line optical tweezers provides a convenient and dynamically reconfigurable approac...
We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
This chapter reviews the basic physics and design of an optical tweezers system. It shows how the op...
Microscopic objects can be manipulated in a more complex and effective way by use of static aberrate...
We outline in general the role and potential areas of application for the use of optical torque in o...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
We present numerical methods for modeling the dynamics of arbitrarily shaped particles trapped withi...
Evstigneev M, Zvyagolskaya O, Bleil S, Eichhorn R, Bechinger C, Reimann P. Diffusion of colloidal pa...
We report the construction of an optical tweezers system and the results of the trapping and the mov...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis....
We show that dual line optical tweezers provides a convenient and dynamically reconfigurable approac...
We investigate the diffusion of a colloidal particle in a tilted periodic potential created by means...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
This chapter reviews the basic physics and design of an optical tweezers system. It shows how the op...
Microscopic objects can be manipulated in a more complex and effective way by use of static aberrate...
We outline in general the role and potential areas of application for the use of optical torque in o...
With a tightly focused single laser beam, also called optical tweezers, particles of a few nanometer...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
The dynamic behaviour of colloidal particles driven across one-dimensional optical potential energy ...
We present numerical methods for modeling the dynamics of arbitrarily shaped particles trapped withi...
Evstigneev M, Zvyagolskaya O, Bleil S, Eichhorn R, Bechinger C, Reimann P. Diffusion of colloidal pa...
We report the construction of an optical tweezers system and the results of the trapping and the mov...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
The dynamics of colloidal particles driven over optical potential energy landscapes is studied. Exp...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis....
We show that dual line optical tweezers provides a convenient and dynamically reconfigurable approac...