Optical forces and torques in non-uniform beams of light

Details Optical forces and torques in non-uniform beams of light Optical forces and torques in non-uniform beams of light

2011-12-19

arxiv.org/abs/1112.4429v1

Physics

Condensed Matter

Soft Condensed Matter

4 pages, 1 figure

Scientific paper

The spin angular momentum in an elliptically polarized beam of light plays several noteworthy roles in optical traps. It contributes to the linear momentum density in a non-uniform beam, and thus to the radiation pressure exerted on illuminated objects. It can be converted into orbital angular momentum, and thus can exert torques even on optically isotropic objects. Its curl, moreover, contributes to both forces and torques without spin-to-orbit conversion. We demonstrate these effects experimentally by tracking colloidal spheres diffusing in elliptically polarized optical tweezers. Clusters of spheres circulate deterministically about the beam's axis. A single sphere, by contrast, undergoes stochastic Brownian vortex circulation that maps out the optical force field.

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