准晶
二次谐波产生
光子学
等离子体子
极化(电化学)
平面的
非线性光学
非线性系统
对称(几何)
全息术
光学
旋转对称性
材料科学
物理
超材料
相(物质)
光子晶体
光子超材料
凝聚态物理
量子力学
几何学
计算机科学
激光器
物理化学
数学
化学
计算机图形学(图像)
机械
作者
Yutao Tang,Junhong Deng,King‐Fai Li,Mingke Jin,Jack Ng,Guixin Li
标识
DOI:10.1002/adma.201901188
摘要
Abstract Photonic metasurfaces, a kind of 2D structured medium, represent a novel platform to manipulate the propagation of light at subwavelength scale. In linear optical regime, many interesting topics such as planar meta‐lenses, metasurface optical holography, and so on have been widely investigated. Recently, metasurfaces have gone into the nonlinear optical regime. While it is recognized that the local symmetry of the meta‐atoms plays a vital role in determining the polarization, phase, and intensity of the nonlinear waves, much less attention has been paid to the global symmetry of the nonlinear metasurfaces. According to the Penrose tiling and the newly proposed hexagonal quasicrystalline tiling, nonlinear optical quasicrystal metasurfaces are designed and fabricated based on the geometric‐phase‐controlled plasmonic meta‐atoms with local rotational symmetry. It is found that the far‐field radiation behavior of second harmonic generation waves are determined by both the tiling schemes of quasicrystal metasurfaces and the local symmetry of meta‐atoms they consist of. The proposed concept may open new avenues for designing nonlinear optical sources with metasurface crystals.
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