Resonant-wavelength tuning of a nanocavity by subnanometer control of a two-dimensional silicon-based photonic crystal slab structure

Bong-Shik Song; Takuji Nagashima; Takashi Asano; Susumu Noda

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Resonant-wavelength tuning of a nanocavity by subnanometer control of a two-dimensional silicon-based photonic crystal slab structure

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。

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We demonstrate fine tuning of the resonant wavelength of a nanocavity in a two-dimensional silicon-based photonic crystal slab structure by subnanometer control of the airhole diameter and slab thickness. Theoretical investigation shows that the resonant wavelength depends linearly on the latter two parameters. To experimentally demonstrate the fine tuning of the resonant wavelength, we control these parameters through chemical processes. The resonant-wavelength shift is tuned to 3.25 and 0.36 nm by use of two oxidizing processes. The latter shift, which corresponds to a 0.14 nm thick silicon layer, is considerably smaller than shifts achieved in previous studies.

机译：我们通过气孔直径和板坯厚度的亚纳米控制，演示了二维硅基光子晶体板坯结构中纳米腔共振波长的微调。理论研究表明，共振波长与后两个参数线性相关。为了实验证明共振波长的微调，我们通过化学过程控制这些参数。通过使用两种氧化过程，谐振波长偏移被调谐到3.25和0.36 nm。后者的位移对应于0.14 nm厚的硅层，比以前的研究结果要小得多。

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《Applied optics》 |2009年第26期|共5页
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Bong-Shik Song; Takuji Nagashima; Takashi Asano; Susumu Noda;
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1. 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。
2. 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
3. Heterostructures in two-dimensional photonic-crystal slabs and their application to nanocavities [J] . Song BS, Asano T, Noda S Journal of Physics, D. Applied Physics: A Europhysics Journal . 2007,第9期

机译：二维光子晶体平板的异质结构及其在纳米腔中的应用
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. Design and fabrication of the silicon-based two-dimensional slab photonic crystal for imaging application. [D] . Cui, Yonghao. 2006

机译：用于成像应用的硅基二维平板光子晶体的设计和制造。
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. Resonant-wavelength control of nanocavities by nanometer-scaled adjustment of two-dimensional photonic crystal slab structures [O] . Song Bong-Shik, Nagashima Takuji, Asano Takashi, 2008

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。

Resonant-wavelength tuning of a nanocavity by subnanometer control of a two-dimensional silicon-based photonic crystal slab structure

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