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Literature DB >> 24663758

Plasmonic particles set into fast orbital motion by an optical vortex beam.

Anni Lehmuskero, Yanming Li, Peter Johansson, Mikael Käll.

Abstract

We optically trap plasmonic gold particles in two dimensions and set them into circular motion around the optical axis using a helically phased vortex laser beam. The orbiting frequency of the particles reaches 86 Hz, which corresponds to a particle velocity of the order 1 mm per second, for an incident laser power of a few tens of milliwatts. The experimentally determined orbiting frequencies are found to be well in line with the notion that the beam carries an orbital angular momentum of ħl per photon.

Year: 2014 PMID： 24663758 DOI： 10.1364/OE.22.004349

Source DB: PubMed Journal: Opt Express ISSN： 1094-4087 Impact factor: 3.894

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Cited

5 in total

Plasmonic particles set into fast orbital motion by an optical vortex beam.

1. Light-driven transport of plasmonic nanoparticles on demand.

2. Spin and Orbital Rotation of Plasmonic Dimer Driven by Circularly Polarized Light.

3. Nonlinearity-induced nanoparticle circumgyration at sub-diffraction scale.

4. Construction and Operation of a Light-driven Gold Nanorod Rotary Motor System.

5. 3D Optical Vortex Trapping of Plasmonic Nanostructure.