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- Title
Near-field multiple optical trapping using high order axially symmetric polarized beams.
- Authors
ZHEHAI ZHOU; QIAOFENG TAN; CHANGXI YANG; LIANQING ZHU
- Abstract
The near-field multiple optical trapping using high order axially symmetric polarized beams (ASPBs) is studied for the first time. First, a near-field optical trapping scheme is proposed based on the Kretschmann-Raether configuration, and surface plasmon polaritons (SPPs) field distributions excited by incident ASPBs are calculated, which present a multi-focal-spot pattern and the size of spots is much smaller than that of the diffraction limitation. Then, the gradient forces on Rayleigh dielectric particles formed by the multi-focal-spot focused field are computed, which indicates that multiple ultra-small particles with the refractive index higher than that of the ambient medium can be trapped simultaneously on the metal surface. The number and size of trapped particles can be manipulated by flexibly modifying the polarization order of incident beams, which is expected to enhance the capability of traditional optical trapping systems and provide a solution for massively parallel optical trapping of nanometer-sized particles.
- Subjects
OPTICAL tweezers; POLARIZED beams (Nuclear physics); POLARITONS; OPTICAL diffraction; REFRACTIVE index; NANOPARTICLES
- Publication
Optica Applicata, 2013, Vol 43, Issue 2, p287
- ISSN
0078-5466
- Publication type
Article
- DOI
10.5277/oa130209