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Microscopic and macroscopic manipulation of gold nanorod and its hybrid nanostructures[Invited]被引量：1: 2013年; Gold nanorods(GNRs)have potential applications ranging from biomedical sciences and emerging nanophotonics.In this paper,we will review some of our recent studies on both microscopic and macroscopic manipulation of GNRs.Unique properties of GNR nanoparticles,such as efficient surface plasmon amplifications effects,are introduced.The stable trapping,transferring,positioning and patterning of GNRs with nonintrusive optical tweezers will be shown.Vector beams are further employed to improve the trapping performance.On the other hand,alignment of GNRs and their hybrid nanostructures will be described by using a film stretch method,which induces the anisotropic and enhanced absorptive nonlinearities from aligned GNRs.Realization and engineering of polarized emission from aligned hybrid GNRs will be further demonstrated,with relative excitation–emission efficiency significantly enhanced.Our works presented in this review show that optical tweezers possess great potential in microscopic manipulation of metal nanoparticles and macroscopic alignment of anisotropic nanoparticles could help the macroscopic samples to flexibly represent the plasmonic properties of single nanoparticles for fast,cheap,and high-yield applications.; Jiafang LiHonglian GuoZhi-Yuan Li; 关键词：NANOPARTICLES MACROSCOPIC TRAPPING

Graphene surface plasmon polaritons transport on curved substrates被引量：3: 2015年; We theoretically investigate the transport property of graphene surface plasmon polaritons(GSPPs) on curved graphene substrates. The dispersion relationship, propagation length, and field confinement are calculated by an analytical method and compared with those on planar substrates. Based on our theory, the bend of graphene nearly does not affect the property of GSPPs except for an extremely small shift to the lower frequency for the same effective mode index. The field distributions and the eigenfrequencies of GSPPs on planar and cylindrical substrates are calculated by the finite element method, which validates our theoretical analysis. Moreover, three types of graphene-guided optical interconnections of GSPPs, namely, planar to curved graphene film, curved to planar graphene film, and curved to curved graphene film, are proposed and examined in detail. The theoretical results show that the GSPPs propagation on curved graphene substrates and interconnections will not induce any additional losses if the phase-matching condition is satisfied. Additionally, the extreme tiny size of curved graphene for interconnection at a certain spectra range is predicted by our theory and validated by the simulation of 90° turning of GSPPs. The bending effect on the property of GSPPs is systematically analyzed and identified. Our studies would be helpful to instruct design of plasmonic devices involving curved GSPPs, such as nanophotoniccircuits, flexible plasmonic, and biocompatible devices.; Ting-Hui XiaoLin GanZhi-Yuan Li

Optical forces exerted on a graphene-coated dielectric particle by a focused Gaussian beam被引量：1: 2016年; In this paper, we derive the analytical expression for the multipole expansion coefficients of scattering and interior fields of a graphene-coated dielectric particle under the illumination of an arbitrary optical beam. By using this arbitrary beam theory, we systematically investigate the optical forces exerted on the graphene-coated particle by a focused Gaussian beam. Via tuning the chemical potential of the graphene, the optical force spectra could be modulated accordingly at resonant excitation. The hybridized whispering gallery mode of the electromagnetic field inside the graphene-coated polystyrene particle is more intensively localized than the pure polystyrene particle, which leads to a weakened morphology-dependent resonance in the optical forces. These investigations could open new perspectives for dynamic engineering of optical manipulations in optical tweezers applications.; Yang YangZhe ShiJiafang LiZhi-Yuan Li

Manipulation of plasmonic wavefront and light–matter interaction in metallic nanostructures: A brief review被引量：1: 2014年; The control and application of surface plasmons （SPs）, is introduced with particular emphasis on the manipulation of the plasmonic wavefront and light-matter interaction in metallic nanostructures. We introduce a direct design methodology called the surface wave holography method and show that it can be readily employed for wave-front shaping of near-infrared light through a subwavelength hole, it can also be used for designing holographic plasmonic lenses for SPs with complex wavefronts in the visible band. We also discuss several issues of light-matter interaction in plasmonic nanostructures. We show theoretically that amplification of SPs can be achieved in metal nanoparticles incorporated with gain media, leading to a giant reduction of surface plasmon resonance linewidth and enhancement of local electric field intensity. We present an all-analytical semiclassical theory to evaluate spaser performance in a plasmonic nanocavity incorporated with gain media described by the four-level atomic model. We experimentally demonstrate amplified spontaneous emission of SP polaritons and their amplification at the interface between a silver film and a polymer film doped with dye molecules. We discuss various aspects of microscopic and macroscopic manipulation of fluorescent radiation from gold nanorod hybrid structures in a system of either a single nanoparticle or an aligned group of nanoparticles. The findings reported and reviewed here could help others explore various approaches and schemes to manipulate plasmonic wavefront and light-matter interaction in metallic nanostructures for potential applications, such as optical displays, information integration, and energy harvesting technologies.; 李家方李志远

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