In this article we explore the dynamics of a Brownian particle in a feedback-free dynamic thermophoretic trap. The trap contains a focused laser beam heating a circular gold structure locally and creating a repulsive thermal potential for a Brownian particle. In order to confine a particle the heating beam is steered along the circumference of the gold structure leading to a non-trivial motion of the particle. We theoretically find a stability condition by switching to a rotating frame, where the laser beam is at rest. Particle trajectories and stable points are calculated as a function of the laser rotation frequency and are experimentally confirmed. Additionally, the effect of Brownian motion is considered. The present study complements t...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Light and heat are synergistic tools used in the manipulation of nanoparticles and biomolecules. Whe...
International audienceThe Brownian motion of a particle hotter than its environment is an iconic out...
In this article we explore the dynamics of a Brownian particle in a feedback-free dynamic thermophor...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
We demonstrate a single molecule trapping concept that modulates the actual driving force of Brownia...
We demonstrate a single molecule trapping concept that modulates the actual driving force of Brownia...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Light and heat are synergistic tools used in the manipulation of nanoparticles and biomolecules. Whe...
International audienceThe Brownian motion of a particle hotter than its environment is an iconic out...
In this article we explore the dynamics of a Brownian particle in a feedback-free dynamic thermophor...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Brownian motion is driven by thermal fluctuations and becoming more efficient for decreasing size an...
We demonstrate a single molecule trapping concept that modulates the actual driving force of Brownia...
We demonstrate a single molecule trapping concept that modulates the actual driving force of Brownia...
This dissertation presents and explores a technique to confine and manipulate single and multiple na...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Gold nanorods can be optically trapped in aqueous solution and forced to rotate at kilohertz rates b...
Light and heat are synergistic tools used in the manipulation of nanoparticles and biomolecules. Whe...
International audienceThe Brownian motion of a particle hotter than its environment is an iconic out...