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Tube length-assisted optimized aerosol trapping
Taheri, S. M. R ; Sharif University of Technology
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- Type of Document: Article
- DOI: 10.1016/j.optcom.2014.05.022
- Abstract:
- Trapping a single aerosol using optical tweezers could be of great importance for environmental sciences. Though a single nanoparticle as small as 10 nm is successfully trapped in aqueous media using optical tweezers, due to spherical aberration only large clusters of nanoparticles were stably trapped in air. In this paper we provide our theoretical and experimental results on optimized trapping of aerosols as small as 400 nm in radius by the introduction of an extra spherical aberration source in order to minimize the total spherical aberration of the system. Our method allows for trapping of high refractive index particles such as polystyrene beads in air. It also provides considerably large trappable depth range which endows in-depth trapping. Our theoretical and experimental results are in very good agreement
- Keywords:
- Aerosol trapping ; Optical trapping ; Optical tweezers ; Spherical aberration ; Aberrations ; Refractive index ; Aqueous media ; Environmental science ; High refractive index ; Large clusters ; Opticaltrapping ; Polystyrene beads ; Single nanoparticle ; Spherical aberrations ; Aerosols
- Source: Optics Communications ; Vol. 329, issue , 2014 , pp. 196-199 ; ISSN: 00304018
- URL: http://www.sciencedirect.com/science/article/pii/S0030401814004581