Accurate measurement of microscopic forces and torques using optical tweezers

Authors

  • Melanie McLaren National Laser Centre, CSIR
  • Elias Sidderas-Haddad School of Physics, University of the Witwatersrand
  • Andrew Forbes National Laser Centre, CSIR

Keywords:

optical tweezing, angular momentum of light, vortex beams, optical forces, optical trapping

Abstract

It is now well known that matter may be trapped by optical fields with high intensity gradients. Once trapped, it is then possible to manipulate microscopic particles using such optical fields, in so-called optical tweezers. Such optical trapping and tweezing systems have found widespread application across diverse fields in science, from applied biology to fundamental physics. In this article we outline the design and construction of an optical trapping and tweezing system, and show how the resulting interaction of the laser light with microscopic particles may be understood in terms of the transfer of linear and angular momentum of light. We demonstrate experimentally the use of our optical tweezing configuration for the measurement of microscopic forces and torques. In particular, we make use of digital holography to create so-called vortex laser beams, capable of transferring orbital angular momentum to particles. The use of such novel laser beams in an optical trapping and tweezing set-up allows for the control of biological species at the single-cell level.

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Author Biography

Andrew Forbes, National Laser Centre, CSIR

School of Physics, University of KwaZulu-Natal

Published

2011-09-19

How to Cite

1.
McLaren M, Sidderas-Haddad E, Forbes A. Accurate measurement of microscopic forces and torques using optical tweezers. S. Afr. J. Sci. [Internet]. 2011 Sep. 19 [cited 2021 Dec. 6];107(9/10):8 pages. Available from: https://sajs.co.za/article/view/9993