Photonic crystal tuned by cantilever

机译：由悬臂调整的光子晶体

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The purpose of our research is to tune two-dimensional (2D) slab photonic crystal (PhC) reflectors by inserting an AFM cantilever into one of the air holes. The 2D slab PhCs have column-shaped air holes on the triangular lattice in silicon air-bridge waveguide. The PhCs act as optical reflectors because of their photonic band gap. First, we estimated the effect of the cantilever insertion on the transmittance of the PhC reflectors with the finite difference time domain (FDTD) method. Then, we fabricated PhC reflectors by electron beam (EB) lithography and DRIE. Finally, we inserted the cantilever into one of their air holes. The transmittance with the cantilever was about twice as large as the original transmittance. The results proved that we could tune the transmittance of the PhC reflectors.

机译：我们的研究目的是通过将AFM悬臂插入其中一个气孔来调谐二维（2D）板光子晶体（PHC）反射器。 2D板PHC在硅空气桥波导的三角形晶格上具有柱形气孔。由于光调带隙，PHCS充当光学反射器。首先，我们估计悬臂插入对PHC反射器的透射率的影响，具有有限差分时域（FDTD）方法。然后，我们通过电子束（EB）光刻和Drie制造了PHC反射器。最后，我们将悬臂插入其中一个气孔。悬臂的透射率约为原始透射率的两倍。结果证明我们可以调整PHC反射器的透射率。

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《IEEE International Conference on Micro Electro Mechanical Systems》|2005年||共4页
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Takahata T.; Hoshino K.; Matsumoto K.; Shimoyama I.;
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中图分类 TP271.4-53;
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photonic crystals; optical waveguides; optical tuning; electron beam lithography; sputter etching; finite difference time-domain analysis; 2D slab photonic crystal reflectors; AFM cantilever; air holes; triangular lattice; silicon air-bridge waveguide; optical reflectors; photonic band gap; finite difference time domain method; PhC reflectors; electron beam lithography; deep reactive ion etching;

机译：光子晶体;光学波导;光学调谐;电子束光刻;溅射蚀刻;有限差分时间域分析;2D板光子晶体反射器;AFM悬臂;空气孔;三角格;硅空气桥波导;光反射器;光反射器;光反射器;光反射器;光反射器;光子反射器;光反射器;光反射器;有限差分时域法;PHC反射器;电子束光刻;深反应离子蚀刻;

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专利

1. Micro-cantilever integrated 2D photonic crystal slab waveguide for enhanced dispersion tuning [J] . S. M. C. Abdulla, L. J. Kauppinen, M. Dijkstra, Journal of Micromechanics and Microengineering . 2011,第12期

机译：微悬臂集成二维光子晶体平板波导，增强色散调谐
2. Monolithically integrated cantilevers with self-aligned tips for wavelength tuning in a photonic crystal cavity-based channel-drop filter [J] . S. M. C. Abdulla, L. J. Kauppinen, M. Dijkstra, Journal of Micromechanics and Microengineering . 2011,第7期

机译：具有自对准尖端的单片集成悬臂，可在基于光子晶体腔的通道降滤器中进行波长调谐
3. Transmittance tuning of photonic crystal reflectors using an AFM cantilever [J] . Takahata T, Hoshino K, Matsumoto K, Sensors and Actuators, A. Physical . 2006,第1期

机译：使用AFM悬臂调整光子晶体反射器的透射率
4. Photonic crystal tuned by cantilever [C] . Takahata, T., Hoshino, . 2005

机译：悬臂调谐的光子晶体
5. Ultrafast tuning and probing of two-dimensional silicon photonic crystals. [D] . Tan, Hong Wee. 2006

机译：二维硅光子晶体的超快调谐和探测。
6. Tuning and Freezing Disorder in Photonic Crystals using Percolation Lithography [O] . Ian B. Burgess, Navid Abedzadeh, Theresa M. Kay, -1

机译：使用渗流光刻技术调整和冻结光子晶体中的混乱
7. Photonic Bandgap Tuning of Photonic Crystals by Air Filling Fraction [O] . Huda M. Mohammad, Nawfal Y. Jamil, Abdulghafoor I. Abdullah 2013

机译：通过空气灌装级分的光子带隙调谐光子晶体
8. Tuning and Freezing Disorder in Photonic Crystals using Percolation Lithography. [R] . Burgess, I. B., Abedzadeh, N., Kay, T. M., 2016

机译：利用渗透光刻技术在光子晶体中调谐和冻结失调。

Photonic crystal tuned by cantilever

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