Quantitative chemical identification of four gases in remote infrared (9-11 mu m) differential absorption lidar experiments

Quagliano JR; Stoutland PO; Petrin RR; Sander RK; Romero RJ; Whitehead MC; Quick CR; Tiee JJ; Jolin LJ

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Quantitative chemical identification of four gases in remote infrared (9-11 mu m) differential absorption lidar experiments

机译：远程红外（9-11微米）差分吸收激光雷达实验中四种气体的定量化学鉴定

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A combined experimental and computational approach utilizing tunable CO2 lasers and chemometric analysis was employed to detect chemicals and their concentrations in the field under controlled release conditions. We collected absorption spectra for four organic gases in the laboratory by lasing 40 lines of the laser in the 9.3-10.8 mu m range. The ability to predict properly the chemicals and their respective concentrations depends on the nature of the target, the atmospheric conditions, and the round-trip distance. In 39 of the 45 field experiments, the identities of the released chemicals were identified correctly without predictions of false positives or false negatives. (C) 1997 Optical Society of America.

机译：利用可调谐CO2激光器和化学计量分析的组合实验和计算方法，来检测控释条件下田间的化学物质及其浓度。我们通过在9.3-10.8μm范围内发射40条激光线，在实验室中收集了四种有机气体的吸收光谱。正确预测化学物质及其各自浓度的能力取决于目标的性质，大气条件和往返距离。在45个田间实验中的39个中，正确地确定了释放出的化学物质的身份，而没有假阳性或假阴性的预测。（C）1997年美国眼镜学会。

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《Applied optics》 |1997年第9期|共13页
作者
Quagliano JR; Stoutland PO; Petrin RR; Sander RK; Romero RJ; Whitehead MC; Quick CR; Tiee JJ; Jolin LJ;
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正文语种 eng
中图分类光学;
关键词
lidar; CO2 lasers; infrared spectroscopy; plume absorption; remote sensing; partial least squares; differential absorption lidar; chemometrics; optical spectroscopy; WATER-VAPOR; CALIBRATION METHODS; DIAL MEASUREMENTS; SYSTEM; LASER; REFLECTANCE; OZONE;

机译：激光雷达;CO2激光;红外光谱;烟尘吸收;遥感;偏最小二乘;差分吸收激光雷达;化学计量学;光学光谱;水蒸气;标定方法;刻度测量;系统;激光;折射率;臭氧;

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1. Quantitative chemical identification of four gases in remote infrared (9-11 mu m) differential absorption lidar experiments [J] . Quagliano JR, Stoutland PO, Petrin RR, Applied optics . 1997,第9期

机译：远程红外（9-11微米）差分吸收激光雷达实验中四种气体的定量化学鉴定
2. Differential absorption lidar CO_(2) laser system for remote sensing of TATP related gases [J] . Avishekh Pal, C. Douglas Clark, Michael Sigman, Applied optics . 2009,第4期

机译：差分吸收激光雷达CO_（2）激光系统，用于遥感TATP相关气体
3. Comparing the theoretical performances of 1.65- and 3.3-mu m differential absorption lidar systems used for airborne remote sensing of natural gas leaks (vol 12, 026030, 2018) [J] . Yerasi Ashwin, Tandy William D. Jr., Emery William J., Journal of Applied Remote Sensing . 2018,第2期

机译：比较1.65-和3.3-mu M微分吸收激光雷达系统的理论性能，用于天然气泄漏的空气遥感（Vol 12,026030,2018）
4. An OPO-based lidar system for differential absorption measurements of hazardous gases in mid-infrared spectral region [C] . V. Vaicikauskas, V. Kabelka, Z. Kuprionis, Electro-Optical Remote Sensing . 2005

机译：基于OPO的激光雷达系统，用于中红外光谱区中有害气体的差分吸收测量
5. Laser remote sensing of trace chemical species using 10.6 micron carbon dioxide laser enhanced breakdown spectroscopy and differential absorption lidar. [D] . Pal, Avishekh. 2008

机译：使用10.6微米二氧化碳激光增强的击穿光谱法和差分吸收激光雷达对痕量化学物质进行激光遥感。
6. High Repetition Rate Mid-Infrared Differential Absorption Lidar for Atmospheric Pollution Detection [O] . Yu Gong, Lingbing Bu, Bin Yang, 2020

机译：高重复率中红外差分吸收激光雷达用于大气污染检测
7. A robust optical parametric oscillator and receiver telescope for differential absorption lidar of greenhouse gases [O] . Robinson, Iain, Jack, James, Rae, Cameron, 2015

机译：一种强大的光学参量振荡器和接收器望远镜，用于温室气体的差分吸收激光雷达
8. The Effect of Several Infrared Transparent Broadening Gases on the Absorption of Infrared Radiation in the 15 mu M Band of Carbon Dioxide [R] . Reichle, H. G. 1969

机译：几种红外透明增宽气体对15 m m二氧化碳吸收红外辐射的影响

Quantitative chemical identification of four gases in remote infrared (9-11 mu m) differential absorption lidar experiments

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