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Functional Meta-Optics and Nanophotonics Govern by Mie Resonances
ACS Photonics ( IF 6.5 ) Pub Date : 2017-11-02 00:00:00 , DOI: 10.1021/acsphotonics.7b01038 Sergey Kruk 1 , Yuri Kivshar 1, 2
ACS Photonics ( IF 6.5 ) Pub Date : 2017-11-02 00:00:00 , DOI: 10.1021/acsphotonics.7b01038 Sergey Kruk 1 , Yuri Kivshar 1, 2
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Scattering of electromagnetic waves by subwavelength objects is accompanied by the excitation of electric and magnetic Mie resonances that may modify substantially the scattering intensity and radiation pattern. Scattered fields can be decomposed into electric and magnetic multipoles, and the magnetic multipoles define magnetic response of structured materials underpinning the new field of all-dielectric resonant meta-optics. Here we review the recent developments in meta-optics and nanophotonics and demonstrate that the Mie resonances can play a crucial role offering novel ways for the enhancement of many optical effects near magnetic and electric multipolar resonances, as well as driving a variety of interference phenomena which govern recently discovered novel effects in nanophotonics. We further discuss the frontiers of all-dielectric meta-optics for flexible and advanced control of light with full phase and amplitude engineering, including nonlinear nanophotonics, anapole nanolasers, quantum optics, and topological photonics.
中文翻译:
三重共振控制功能性元光学和纳米光子学
亚波长物体对电磁波的散射伴随着电和磁Mie共振的激发,这些共振可能会大大改变散射强度和辐射方向图。散射的场可以分解为电和磁多极,而磁多极则定义了结构化材料的磁响应,从而为全介电共振元光学的新领域奠定了基础。在这里,我们回顾了亚光学和纳米光子学的最新进展,并证明了Mie共振可以发挥关键作用,为增强磁多极共振和电多极共振附近的许多光学效应以及驱动各种干扰现象提供新颖的方法。治理最近发现的纳米光子学中的新颖效应。
更新日期:2017-11-02
中文翻译:
三重共振控制功能性元光学和纳米光子学
亚波长物体对电磁波的散射伴随着电和磁Mie共振的激发,这些共振可能会大大改变散射强度和辐射方向图。散射的场可以分解为电和磁多极,而磁多极则定义了结构化材料的磁响应,从而为全介电共振元光学的新领域奠定了基础。在这里,我们回顾了亚光学和纳米光子学的最新进展,并证明了Mie共振可以发挥关键作用,为增强磁多极共振和电多极共振附近的许多光学效应以及驱动各种干扰现象提供新颖的方法。治理最近发现的纳米光子学中的新颖效应。
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