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1 March 2019 Plasmonic annular aperture arrays for nanoparticle manipulation
Domna G. Kotsifaki, Xue Han, Viet Giang Truong, Síle Nic Chormaic
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Proceedings Volume 10935, Complex Light and Optical Forces XIII; 109351H (2019) https://doi.org/10.1117/12.2507169
Event: SPIE OPTO, 2019, San Francisco, California, United States
Abstract
In this work, we present experimental results on the optical trapping and manipulation of micro- and nanoparticles using plasmonic tweezers based on arrays of annular nanoapertures. By increasing the inner disk size of the nanoaperture, a redshift of the resonant wavelength is observed. We demonstrate both trapping and transportation of particles across the plasmonic device using a drag force method with incident laser intensities less than 1.5 mWμm−2. We calculate trap stiffnesses equal to 0.25 pN/μm·mW and 1.07 pN μm−1mW−1 for 0.5 μm and 1 μm diameter particles, respectively. A high trap stiffness of 0.85 fN/nm· mW at a low incident laser intensity of ~0.51 mW/μm2 at 980 nm was obtained for 30 nm diameter polystyrene particles. We perform sequential single-nanoparticle trapping within specific trapping sites. The demonstrated plasmonic nanotweezers could be used for lab-on-a-chip devices where efficient particle trapping with high tunability of the applied laser wavelength is required.
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Domna G. Kotsifaki, Xue Han, Viet Giang Truong, and Síle Nic Chormaic "Plasmonic annular aperture arrays for nanoparticle manipulation ", Proc. SPIE 10935, Complex Light and Optical Forces XIII, 109351H (1 March 2019); https://doi.org/10.1117/12.2507169
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KEYWORDS
Plasmonics
Particles
Nanoparticles
Optical tweezers
Nanostructures
Objectives
Transmittance
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