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Optical binding between dielectric nanowires

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    0507065 - ÚPT 2020 RIV US eng C - Conference Paper (international conference)
    Hanna, S. - Simpson, Stephen Hugh
    Optical binding between dielectric nanowires.
    Optical Trapping and Optical Micromanipulation XIII (Proceedings of SPIE 9922). Bellingham: SPIE, 2016, č. článku 99221T. ISBN 9781510602359. ISSN 0277-786X.
    [Conference on Optical Trapping and Optical Micromanipulation /13./. San Diego (US), 28.08.2016-01.09.2016]
    Institutional support: RVO:68081731
    Keywords : dielectric nanowires * optical binding
    Subject RIV: BH - Optics, Masers, Lasers
    OBOR OECD: Optics (including laser optics and quantum optics)

    Optical binding occurs when micron-sized particles interact through the exchange of scattered photons. It has been observed both in systems of colloidal dielectric particles and between metallic nanoparticles, and can result in the formation of clusters and coupled dynamical behaviour. Optical binding between spherical particles has been studied in some detail, but little work has appeared in the literature to describe binding effects in lower symmetry systems. In the present paper we discuss recent theoretical work and computer simulations of optical binding effects operating between dielectric nanowires in counter propagating beams. The reduction in symmetry from simple spheres introduces new opportunities for binding, including different types of orientational ordering and anisotropies in the spatial arrangements that are possible for the bound particles. Various ordered configurations are possible, including ladder-like structures and oriented lattices. The stability of these structures to thermal perturbations will be discussed. Asymmetric arrangements of the nanowires are also possible, as a consequence of interactions between the nanowires and the underlying counter-propagating laser field. These configurations lead to a diversity of non-conservative effects, including uniform translation in linearly polarised beams and synchronous rotations in circularly polarised beams, suggesting potential applications of such bound structures in micro-machines.
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