Enhancing sensitivity beyond the optical effective pathlength in cavity-enhanced spectroscopy

机译：在腔增强光谱仪中提高灵敏度，使其超出光学有效光程

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Cavities utilizing high-finesse optical resonators provide effective pathlength of several kilometers for light-matter interaction. However as compared to near-IR wavelength region, in the mid-IR region absorption measurements lack high sensitivity due to the combination of highly reflective mirrors and lower detectivity of detectors. To enhance sensitivity beyond the optical effective path length, Off-Axis Cavities with three spherical mirrors are modelled.

机译：利用高级光学谐振器的腔体为光与物质的相互作用提供了几公里的有效光程。但是，与近红外波长区域相比，在中红外区域，由于高反射镜和探测器探测性的降低，吸收测量缺乏高灵敏度。为了提高超出光学有效路径长度的灵敏度，对带有三个球面镜的离轴腔进行了建模。

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来源
《Conference on Lasers and Electro-Optics Europe;European Quantum Electronics Conference》|2017年|1-1|共1页
会议地点 Munich(DE)
作者
F. Nadeem; B. Postma; G. Postma; S. M. Cristescu; J. Mandan; F. J. M. Harren;
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作者单位

Life Science Trace Gas Facility Molecular and Laser Physics;

Department of Analytical Chemistry Institute of Molecules and Materials Radboud University Nijmegen the Netherlands;

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关键词
Cavity resonators; Mirrors; Optical sensors; Absorption; Optical reflection; Optical resonators; Spectroscopy;

机译：腔谐振器；镜子;光学传感器吸收光学反射；光学谐振器；光谱学;

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专利

1. Understanding the sensitivity of cavity-enhanced absorption spectroscopy: pathlength enhancement versus noise suppression [J] . B. Ouyang, R. L. Jones Applied physics . 2012,第4期

机译：了解腔增强吸收光谱的灵敏度：光程增强与噪声抑制
2. Enhancing the sensitivity of mid-IR quantum cascade laser-based cavity-enhanced absorption spectroscopy using RF current perturbation [J] . Manfred Katherine M., Kirkbride James M. R., Ciaffoni Luca, Optics Letters . 2014,第24期

机译：利用RF电流扰动提高基于中红外量子级联激光器的腔增强吸收光谱的灵敏度
3. Sub-Doppler resolution near-infrared spectroscopy at 1.28 mu m with the noise-immune cavity-enhanced optical heterodyne molecular spectroscopy method [J] . Chen Tzu-Ling, Liu Yi-Wei Optics Letters . 2017,第13期

机译：副红外光谱近红外光谱，噪声免疫腔增强光学外差分子谱法为1.28μm
4. Enhancing Sensitivity Beyond the Optical Effective Pathlength in Cavity-Enhanced Spectroscopy [C] . F. Nadeem, B. Postma, G. Postma, Conference on Lasers and Electro-Optics Europe . 2017

机译：提高腔体增强光谱中的光学有效路径长度的灵敏度
5. Enhanced pathlength absorption measurements using optical waveguide structures. [D] . Stephens, Dennis Antony. 1988

机译：使用光波导结构增强光程吸收测量。
6. Nitric Oxide Analysis Down to ppt Levels by Optical-Feedback Cavity-Enhanced Absorption Spectroscopy [O] . Lucile Richard, Daniele Romanini, Irène Ventrillard 2018

机译：通过光反馈腔增强吸收光谱分析法将一氧化氮降至ppt级
7. Understanding the sensitivity of cavity-enhanced absorption spectroscopy: pathlength enhancement versus noise suppression [O] . B. Ouyang, R. L. Jones 2012

机译：了解腔增强吸收光谱的灵敏度：光程增强与噪声抑制

Enhancing sensitivity beyond the optical effective pathlength in cavity-enhanced spectroscopy

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