Programmable optical transport of particles in knot circuits and networks

José A. Rodrigo; Mercedes Angulo; Tatiana Alieva

doi:10.1364/OL.43.004244

Optics Letters
Vol. 43,
Issue 17,
pp. 4244-4247
(2018)
•https://doi.org/10.1364/OL.43.004244

Programmable optical transport of particles in knot circuits and networks

José A. Rodrigo, Mercedes Angulo, and Tatiana Alieva

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José A. Rodrigo, Mercedes Angulo, and Tatiana Alieva, "Programmable optical transport of particles in knot circuits and networks," Opt. Lett. 43, 4244-4247 (2018)

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Abstract

A freestyle single-beam laser trap allows for multi-particle optical transport along arbitrary open or closed trajectories with independent control of the all-optical confinement and propulsion forces exerted over the particles. Here, exploiting this manipulation tool, we propose and experimentally demonstrate an optical dynamic routing technique to assist multi-particle transport in knot circuits and networks exhibiting multiple crossing paths. This new functionality for optical transport enables the particle circulation in such complex systems handling traffic jams and making possible particle separation/mixing in them. It is important for the development of programmable particle delivery and other automated optical transport operations of interest in colloidal physics, optofluidics, biophysics, etc.

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Supplementary Material (2)

Name	Description
Visualization 1	Experimental results demonstrating dynamic routing of particles (spheres of 1um, SiO2) optically confined and transported along an eight-shaped knot circuit.
Visualization 2	Experimental results demonstrating dynamic routing of particles (spheres of 1um, SiO2) optically confined and transported along a trefoil knot circuit working as a network.

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Abstract

Supplementary Material (2)

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Optics Letters