Trapping volume control in optical tweezers using cylindrical vector beams

S. E. Skelton, M. Sergides, R. Saija, M. A. Iatí, O. M. Maragó, P. H. Jones

Research output: Contribution to journalArticlepeer-review

50 Citations (Scopus)


We present the result of an investigation into the optical trapping of spherical microparticles using laser beams with a spatially inhomogeneous polarization direction [cylindrical vector beams (CVBs)]. We perform three-dimensional tracking of the Brownian fluctuations in the position of a trapped particle and extract the trap spring constants. We characterize the trap geometry by the aspect ratio of spring constants in the directions transverse and parallel to the beam propagation direction and evaluate this figure of merit as a function of polarization angle. We show that the additional degree of freedom present in CVBs allows us to control the optical trap strength and geometry by adjusting only the polarization of the trapping beam. Experimental results are compared with a theoretical model of optical trapping using CVBs derived from electromagnetic scattering theory in the T-matrix framework.

Original languageEnglish
Pages (from-to)28-30
Number of pages3
JournalOptics Letters
Issue number1
Publication statusPublished - 1 Jan 2013


  • optical trapping
  • spherical microparticles
  • trapping beams


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