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Orthogonal Demodulation Pound–Drever–Hall Technique for Ultra-Low Detection Limit Pressure Sensing

机译：正交解调磅–杆–霍尔技术用于超低检测极限压力传感

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摘要

We report on a novel optical microcavity sensing scheme by using the orthogonal demodulation Pound–Drever–Hall (PDH) technique. We found that larger sensitivity in a broad range of cavity quality factor (Q) could be obtained. Taking microbubble resonator (MBR) pressure sensing as an example, a lower detection limit than the conventional wavelength shift detection method was achieved. When the MBR cavity Q is about 10⁵–10⁶, the technique can decrease the detection limit by one or two orders of magnitude. The pressure-frequency sensitivity is 11.6 GHz/bar at wavelength of 850 nm, and its detection limit can approach 0.0515 mbar. This technique can also be applied to other kinds of microcavity sensors to improve sensing performance.

机译：我们通过使用正交解调磅-Drever-霍尔（PDH）技术报告了一种新颖的光学微腔传感方案。我们发现可以在较大的腔质量因数（Q）范围内获得更大的灵敏度。以微泡谐振器（MBR）压力感测为例，实现了比常规波长偏移检测方法更低的检测极限。当MBR腔Q约为10 ^{5 –10 ^{6 时，该技术可以将检测极限降低一到两个数量级。在850 nm的波长下，压力频率灵敏度为11.6 GHz / bar，其检测极限可以达到0.0515 mbar。该技术还可以应用于其他类型的微腔传感器以提高感测性能。}}

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期刊名称 Sensors (Basel Switzerland)
作者
Jinliang Hu; Sheng Liu; Xiang Wu; Liying Liu; Lei Xu;
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作者单位

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年(卷),期 2019(19),14
年度 2019
页码 3223
总页数 8
原文格式 PDF
正文语种
中图分类
关键词
whispering-gallery mode (WGM) microcavity micro-bubble resonator Pound–Drever–Hall technique pressure sensing;

机译：耳语画廊模式（WGM）微腔;微气泡谐振器;磅–悬臂–霍尔技术;压力感应;

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专利

1. Orthogonal Demodulation Pound–Drever–Hall Technique for Ultra-Low Detection Limit Pressure Sensing [J] . Jinliang Hu, Sheng Liu, Xiang Wu, Sensors . 2019,第14期

机译：正交解调磅 - 防治厅技术用于超低检测限制压力传感
2. Pound-Drever-Hall laser frequency locking technique based on orthogonal demodulation [J] . Su Juan, Jiao Mingxing, Jiang Fei Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2018,第期

机译：基于正交解调的磅 - 防钵厅激光频率锁定技术
3. An Ultra-High-Resolution Large-Dynamic-Range Fiber Optic Static Strain Sensor Using Pound-Drever-Hall Demodulation Technique [J] . Qingwen LIU, Zuyuan HE, Tomochika TOKUNAGA, 電子情報通信学会技術研究報告. 光ファイバ応用技術. Optical Fiber Technology . 2011,第182期

机译：利用磅-霍尔-霍尔解调技术的超高分辨率大动态范围光纤静态应变传感器
4. Analysis of the Drever-Pound-Hall technique for the simultaneous detection of the detuning of more cavities on a single channel [C] . Martina De Laurentis, Michele Riccio, Giuseppe De Falco, . 2013

机译：同时检测单个通道上更多空腔失谐的Drever-Pound-Hall技术分析
5. Unsupervised and generalized orthogonal subspace projection and constrained energy minimization for target detection and classfication in remotely sensed imagery. [D] . Ren, Hsuan. 2000

机译：用于遥感影像中目标检测和分类的无监督广义正交子空间投影和约束能量最小化。
6. Integrated Pound−Drever−Hall laser stabilization system in silicon [O] . Mohamad Hossein Idjadi, Firooz Aflatouni -1

机译：硅中集成的Pound-Drever-Hall激光稳定系统
7. Steady-State Analysis of the Effects of Residual Amplitude Modulation of InP-Based Integrated Phase Modulators in Pound–Drever–Hall Frequency Stabilization [O] . Stefanos Andreou, Kevin A. Williams, Erwin A. J. M. Bente 2019

机译：稳态分析基于INP的综合相位调制器剩余幅度调制在庞大龙厅频率稳定中的影响
8. Frequency Stabilization of a Waveguide Laser Using Pound-Drever-Hall [R] . Fanto, M. , Malowicki, J. , Bussjager, R. J. , 2006

机译：使用pound-Drever-Hall对波导激光器进行频率稳定

Orthogonal Demodulation Pound–Drever–Hall Technique for Ultra-Low Detection Limit Pressure Sensing

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