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Infrared/Terahertz Double Resonance for Chemical Remote Sensing: Signatures and Performance Predictions.

机译：用于化学遥感的红外/太赫兹双共振：特征和性能预测。

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Single resonance chemical remote sensing, such as Fourier-transform infrared spectroscopy, has limited recognition specificity because of atmospheric pressure broadening. Active interrogation techniques promise much greater chemical recognition that can overcome the limits imposed by atmospheric pressure broadening. Here we introduce infrared - terahertz (IR/THz) double resonance spectroscopy as an active means of chemical remote sensing that retains recognition specificity through rare, molecule-unique coincidences between IR molecular absorption and a line-tunable CO2 excitation laser. The laser-induced double resonance is observed as a modulated THz spectrum monitored by a THz transceiver. As an example, our analysis indicates that a 1 ppm cloud of CH3F 100 m thick can be detected at distances up to 1 km using this technique.

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Phillips, D. J.; Tanner, E. A.; Everitt, H. O.; Medvedev, I. R.; Neese, C. F.;
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年度 2011
页码 1-15
总页数 15
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Chemical detection; Remote detection; Spectroscopy; Symposia; Infrared; Remote sensing; Terahertz; Double resonance;

机译：化学检测;远程检测;光谱学;专题讨论会;红外;遥感;太赫兹;双共振;

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专利

1. A Double Resonance Approach to Submillimeter/Terahertz Remote Sensing at Atmospheric Pressure [J] . De Lucia F. C., Petkie D. T., Everitt H. O. IEEE Journal of Quantum Electronics . 2009,第2期

机译：大气压下亚毫米/太赫兹遥感的双共振方法
2. Retrieval algorithm of quantitative analysis of passive Fourier transform infrared (FTRD) remote sensing measurements of chemical gas cloud from measuring the transmissivity by passive remote Fourier transform infrared [J] . Liu Zhi-Ming, Liu Wen-qing, Gao Ming-Guang, 中国物理：英文版 . 2008,第011期

机译：被动傅里叶变换红外透射率测量对化学气体云的被动傅里叶变换红外（FTRD）遥感测量进行定量分析的检索算法
3. Retrieval algorithm of quantitative analysis of passive Fourier transform infrared （FTRD） remote sensing measurements of chemical gas cloud from measuring the transmissivity by passive remote Fourier transform infrared [J] . 刘志明, 刘文清, 高闽光, 中国物理：英文版 . 2008,第011期

机译：被动傅里叶变换红外透射率测量对化学气体云的被动傅里叶变换红外定量测量的检索算法
4. Infrared/Terahertz Double Resonance for Chemical Remote Sensing: Signatures and Performance Predictions [C] . Dane J. Phillips, Elizabeth A. Tanner, Henry O. Everitt, SPIE Conference on Terahertz Physics, Devices, and Systems . 2010

机译：用于化学遥感的红外/太赫兹双共振：签名和性能预测
5. Part I. From the lab to the field: Recent developments in polymer coated ATR sensing for the determination of volatile organic compounds. Part II. From the field to the lab: Investigating IR signatures for remote sensing applications. [D] . Karlowatz, Manfred. 2004

机译：第一部分：从实验室到现场：用于测定挥发性有机化合物的聚合物涂层ATR传感技术的最新进展。第二部分从现场到实验室：研究用于遥感应用的IR签名。
6. Enhanced Ultra-Sensitive Metamaterial Resonance Sensor based on Double Corrugated Metal stripe for Terahertz Sensing [O] . Sajad Niknam, Mehran Yazdi, Salman Behboudi Amlashi -1

机译：基于双波纹金属条纹的增强型超灵敏超材料共振传感器用于太赫兹感测
7. Design and Signature Analysis of Remote Trace-Gas Identification Methodology Based on Infrared-Terahertz Double-Resonance Spectroscopy [O] . Tanner, EA, Phillips, DJ, Persons, CM, 2014

机译：基于红外 - 太赫兹双共振光谱的远程微量气体识别方法设计与特征分析

Infrared/Terahertz Double Resonance for Chemical Remote Sensing: Signatures and Performance Predictions.

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