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Fano resonances in heterogeneous dimers of silicon and gold nanospheres 被引量:3

Fano resonances in heterogeneous dimers of silicon and gold nanospheres
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摘要 We theoretically investigate the optical properties of dimers consisting of a gold nanosphere and a silicon nanosphere. The absorption spectrum of the gold sphere in the dimer can be significantly altered and exhibits a pronounced Fano profile. Analytical Mie theory and numerical simulations show that the Fano profile is induced by constructive and destructive interference between the incident electric field and the electric field of the magnetic dipole mode of the silicon sphere in a narrow wavelength range. The effects of the silicon sphere size, distance between the two spheres, and excitation configuration on the optical responses of the dimers are studied. Our study reveals the coherent feature of the electric fields of magnetic dipole modes in dielectric nanostructures and the strong interactions of the coherent fields with other nanophotonic structures. We theoretically investigate the optical properties of dimers consisting of a gold nanosphere and a silicon nanosphere. The absorption spectrum of the gold sphere in the dimer can be significantly altered and exhibits a pronounced Fano profile. Analytical Mie theory and numerical simulations show that the Fano profile is induced by constructive and destructive interference between the incident electric field and the electric field of the magnetic dipole mode of the silicon sphere in a narrow wavelength range. The effects of the silicon sphere size, distance between the two spheres, and excitation configuration on the optical responses of the dimers are studied. Our study reveals the coherent feature of the electric fields of magnetic dipole modes in dielectric nanostructures and the strong interactions of the coherent fields with other nanophotonic structures.
出处 《Frontiers of physics》 SCIE CSCD 2018年第3期121-127,共7页 物理学前沿(英文版)
基金 This work was supported by the National Natural Science Foundation of China (Grant No. 11704416) and the Hunan Provincial Natural Science Foundation of China (Grant No. 2017JJ3408).
关键词 silicon nanosphere gold nanosphere magnetic dipole resonance Fano resonance Mie theory silicon nanosphere gold nanosphere magnetic dipole resonance Fano resonance Mie theory
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