基于蓝噪声的无序光子结构具有各向同性和超宽带隙

3区 物理与天体物理 Q1 Materials Science
Edoardo De Tommasi, Silvia Romano, Gianluigi Zito
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引用次数: 0

摘要

以蓝噪声长程空间相关性为特征的空间无序但均匀分布的点模式在计算机图形学中有很大的好处,特别是由于空间各向同性而导致的空间抖动。本文对硅光子学中基于最远点优化的蓝噪声无序均匀点过程的潜在光子特性进行了数值研究。研究了蓝噪声二维图形的光子特性与填充分数的关系,并以三角形晶格的光子晶体为基准。发现了跨越大部分可见光谱的超宽和全向光子带隙,横向磁极化的隙中比估计高达55.4%,横向电极化的隙中比高达59.4%,完全带隙的隙中比高达32.7%。并对方位角缺陷线的波导效应进行了数值计算。这些结果证实了远程相关无序结构有助于设计具有空间各向同性额外自由度的新型器件,并且即使不完全抑制无限波长密度波动也能打开带隙。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Blue-Noise-Based Disordered Photonic Structures Show Isotropic and Ultrawide Band Gaps
Spatially disordered but uniformly distributed point patterns characterized by so-called blue-noise long-range spatial correlations are of great benefit in computer graphics, especially in spatial dithering thanks to the spatial isotropy. Herein, the potential photonic properties of blue-noise disordered, homogeneous point processes based on farthest-point optimization are numerically investigated for silicon photonics. The photonic properties of blue-noise two-dimensional patterns are studied as a function of the filling fraction and benchmarked with photonic crystals with a triangular lattice. Ultrawide and omnidirectional photonic band gaps spanning most of the visible spectrum are found with estimates of gap–midgap ratios of up to 55.4% for transverse magnetic polarization, 59.4% for transverse electric polarization, and 32.7% for complete band gaps. The waveguiding effect in azimuthal defect lines is also numerically evaluated. These results corroborate the idea that long-range correlated disordered structures are helpful for engineering novel devices with the additional degree of freedom of spatial isotropy, and capable of bandgap opening even without total suppression of infinite-wavelength density fluctuations.
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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