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Resonant-wavelength control of nanocavities by nanometer-scaled adjustment of two-dimensional photonic crystal slab structures

机译：通过二维调整二维光子晶体平板结构的纳米腔共振波长控制。

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摘要

In this letter, we experimentally demonstrate resonant-wavelength control of a series of 16 nanocavities in a two-dimensional photonic crystal slab structure by nanometer-order variation of the lattice constants and air-holes sizes. The cavities show a linear dependence on these parameters, a 1-nm increase of lattice constant or air-hole size leading to 4.2-nm increase or 1.56-nm decrease of the resonant wavelength, respectively. These experimental results are in good agreement with the finite-difference time-domain calculations and have a small standard deviation of wavelength (~1 nm) between samples on a single chip. These results will stimulate development in areas such as ultrasmall and multichannel filters, sensors, and switches.

机译：在这封信中，我们通过晶格常数和气孔尺寸的纳米级变化，通过实验证明了二维光子晶体平板结构中一系列16个纳米腔的共振波长控制。空腔显示出对这些参数的线性依赖性，晶格常数增加1 nm或气孔尺寸增加，分别导致共振波长增加4.2 nm或减少1.56 nm。这些实验结果与有限差分时域计算非常吻合，并且在单个芯片上的样本之间具有很小的波长标准偏差（〜1 nm）。这些结果将刺激超小型和多通道滤波器，传感器和开关等领域的发展。

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Song Bong-Shik; Nagashima Takuji; Asano Takashi; Noda Susumu;
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年度 2008
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1. Resonant-Wavelength Control of Nanocavities by Nanometer-Scaled Adjustment of Two-Dimensional Photonic Crystal Slab Structures [J] . Song B.-S., Nagashima T., Asano T., IEEE Photonics Technology Letters . 2008,第7期

机译：通过二维光子晶体平板结构的纳米尺度调节，控制纳米腔的共振波长。
2. Resonant-wavelength tuning of a nanocavity by subnanometer control of a two-dimensional silicon-based photonic crystal slab structure [J] . Bong-Shik Song, Takuji Nagashima, Takashi Asano, Applied optics . 2009,第26期

机译：通过二维基于硅的光子晶体平板结构的亚纳米控制，对纳米腔进行共振波长调谐。
3. Resonant-Wavelength Control in Visible-Light Range of Organic Photonic Crystal Nanocavities [J] . Masatoshi Kitamura, Satoshi Iwamoto, Yasuhiko Arakawa Japanese Journal of Applied Physics. Part 1, Regular Papers, Brief Communications & Review Papers . 2006,第8A期

机译：有机光子晶体纳米腔可见光范围内的共振波长控制
4. Effect of defect structure on light extraction from a photonic crystal slab nanocavity [C] . Jhy-Yang Wang, Yean-Woei Kiang, Yang, . 2003

机译：缺陷结构对光子晶体平板纳米腔光提取的影响
5. Optical nanocavities in two-dimensional photonic crystal planar waveguides. [D] . Painter, Oskar Jon. 2001

机译：二维光子晶体平面波导中的光学纳米腔。
6. Slab thickness tuning approach for solid-state strong coupling between photonic crystal slab nanocavity and a quantum dot [O] . Gengyan Chen, Jing-Feng Liu, Haoxiang Jiang, 2013

机译：平板厚度调整方法用于光子晶体平板纳米腔和量子点之间的固态强耦合
7. Two-Dimensional Photonic Crystal Slab Nanocavities on Bulk Single-Crystal Diamond [O] . Wan, Noel H., Mouradian, Sara, Englund, Dirk 2018

机译：二维光子晶体平板纳米腔体积单晶钻石

Resonant-wavelength control of nanocavities by nanometer-scaled adjustment of two-dimensional photonic crystal slab structures

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