Enhanced sensitivity in single-mode silicon nitride stadium resonators at visible wavelengths

Chemnitz Mario; Schmidl Gabriele; Schwuchow Anka; Zeisberger Matthias; Huebner Uwe; Weber Karina; Schmidt Markus A.

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Enhanced sensitivity in single-mode silicon nitride stadium resonators at visible wavelengths

机译：在可见波长下的单模氮化硅体育场谐振器中增强了灵敏度

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The marker-free and noninvasive detection of small traces of analytes in aqueous solution using integrated optical resonators is an emerging technique within bioanalytics. Here, we present a single-mode silicon-nitride stadium resonator operating at the red edge of the visible spectrum, showing sensitivities larger than 200 nm/RIU and transmission dips with extinction ratios of more than 15 dB. We introduce a mathematical model that allows analyzing of the resonator sensitivity using the properties of the guided mode only. Large geometric parameter scans using finite element simulations show that optimal sensing conditions are achieved for TM-polarized modes close to the modal cutoff. Due to its compactness and the short operation wavelength, we anticipate applications of our resonator for integrated bioanalytics. (C) 2016 Optical Society of America

机译：使用集成光学谐振器在水溶液中的小痕量分析物的无创和非侵入性检测是生物分析中的新兴技术。这里，我们在可见光谱的红色边缘上呈现单模硅 - 氮化物体育场谐振器，显示大于200nm / RiU的敏感性，并且具有超过15dB的消光比率的透射率。我们介绍了一种数学模型，允许使用引导模式的特性分析谐振器灵敏度。使用有限元模拟的大几何参数扫描显示，对于靠近模态截止的TM极化模式，实现了最佳感测条件。由于其紧凑性和短路操作波长，我们预计我们的谐振器应用于集成生物分析。（c）2016年光学学会

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来源
《Optics Letters》 |2016年第22期|共4页
作者
Chemnitz Mario; Schmidl Gabriele; Schwuchow Anka; Zeisberger Matthias; Huebner Uwe; Weber Karina; Schmidt Markus A.;
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Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

Leibniz Inst Photon Technol Albert Einstein Str 9 D-07745 Jena Germany;

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正文语种 eng
中图分类计量学;光学;
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1. Enhanced sensitivity in single-mode silicon nitride stadium resonators at visible wavelengths [J] . Chemnitz Mario, Schmidl Gabriele, Schwuchow Anka, Optics Letters . 2016,第22期

机译：在可见波长下的单模氮化硅体育场谐振器中增强了灵敏度
2. Electromagnetically Induced Transparency and Wideband Wavelength Conversion in Silicon Nitride Microdisk Optomechanical Resonators [J] . Yuxiang Liu, Marcelo Davanso, Vladimir Aksyuk, Physical review letters . 2013,第22期

机译：氮化硅微盘光机械谐振器中的电磁感应透明度和宽带波长转换
3. Ultrathin silicon nitride microring resonator for biophotonic applications at 970 nm wavelength [J] . Goykhman Ilya, Desiatov Boris, Levy Uriel Applied Physics Letters . 2010,第8期

机译：用于970 nm波长生物光子应用的超薄氮化硅微环谐振器
4. Graphene/MoS2 Heterostructure Photodetector Integrated with Silicon Nitride Micro-Ring Resonators at Visible Wavelengths [C] . Tianyou Zhang, Zeru Wu, Yujie Chen, Asia Communications and Photonics Conference . 2017

机译：集成了氮化硅微环谐振器的可见光波长的石墨烯/ MoS 2 异质结构光电探测器
5. III-nitride Optoelectronic Devices: AlGaInN Gap Engineering from Ultraviolet and Visible Wavelengths towards Terahertz Regime. [D] . Bayram, Can. 2011

机译：III氮化物光电器件：从紫外和可见波长到太赫兹体制的AlGaInN间隙工程。
6. Concentric Split Aluminum with Silicon-Aluminum Nitride Annular Rings Resonators [O] . Muhammad Ammar Khan, Jing-Fu Bao, Fei-Hong Bao, 2019

机译：同心分裂铝和氮化硅铝环形环谐振器
7. Electromagnetically Induced Transparency and Wideband Wavelength Conversion in Silicon Nitride Microdisk Optomechanical Resonators [O] . Liu Yuxiang, Davanço Marcelo, Aksyuk Vladimir, 2013

机译：氮化硅微盘光机械谐振器中的电磁感应透明度和宽带波长转换
8. Resonator design for a visible wavelength free-electron laser (*). [R] . A. Bhowmik N. Lordi I. Ben-Zvi J. Gallardo 1990

机译：可见波长自由电子激光器的谐振器设计（*）。

Enhanced sensitivity in single-mode silicon nitride stadium resonators at visible wavelengths

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