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Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates

Publication ,  Journal Article
Kotsifaki, DG; Kandyla, M; Lagoudakis, PG
Published in: Applied Physics Letters
November 23, 2015

We present experimental evidence of plasmonic-enhanced optical tweezers, of polystyrene beads in deionized water in the vicinity of metal-coated nanostructures. The optical tweezers operate with a continuous wave near-infrared laser. We employ a Cu/Au bilayer that significantly improves dissipation of heat generated by the trapping laser beam and avoid de-trapping from heat convection currents. We investigate the improvement of the optical trapping force and the effective trapping quality factor, and observe an exponential distance dependence of the trapping force from the nanostructures, indicative of evanescent plasmonic enhancement.

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Published In

Applied Physics Letters

DOI

ISSN

0003-6951

Publication Date

November 23, 2015

Volume

107

Issue

21

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 10 Technology
  • 09 Engineering
  • 02 Physical Sciences
 

Citation

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Kotsifaki, D. G., Kandyla, M., & Lagoudakis, P. G. (2015). Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates. Applied Physics Letters, 107(21). https://doi.org/10.1063/1.4936600
Kotsifaki, D. G., M. Kandyla, and P. G. Lagoudakis. “Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates.” Applied Physics Letters 107, no. 21 (November 23, 2015). https://doi.org/10.1063/1.4936600.
Kotsifaki DG, Kandyla M, Lagoudakis PG. Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates. Applied Physics Letters. 2015 Nov 23;107(21).
Kotsifaki, D. G., et al. “Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates.” Applied Physics Letters, vol. 107, no. 21, Nov. 2015. Scopus, doi:10.1063/1.4936600.
Kotsifaki DG, Kandyla M, Lagoudakis PG. Near-field enhanced optical tweezers utilizing femtosecond-laser nanostructured substrates. Applied Physics Letters. 2015 Nov 23;107(21).

Published In

Applied Physics Letters

DOI

ISSN

0003-6951

Publication Date

November 23, 2015

Volume

107

Issue

21

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 10 Technology
  • 09 Engineering
  • 02 Physical Sciences