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使用1.66微米二极管激光器对甲烷进行远程检测。

Remote detection of methane with a 1.66-microm diode laser.

作者信息

Uehara K, Tai H

出版信息

Appl Opt. 1992 Feb 20;31(6):809-14. doi: 10.1364/AO.31.000809.

Abstract

High-sensitivity real-time remote detection of methane in air with a 1.66-microm distributed-feedback diode laser operating at room temperature is demonstrated by laboratory simulations. The laser current was modulated at a high frequency of ~5 MHz, and the laser-center frequency was locked onto a methane-absorption line. The laser light directed toward the probed region was received after one-way transmission or further reflection from a topographic target. The methane absorption was detected by the second-harmonic component in the optical-power variation. The minimum-detectable concentration-path-length product in the transmission scheme was 0.3 part in 10(6) m for a signal averaging time of 1.3 s. In the reflection scheme, the amount of methane could be measured from the ratio of the fundamental and second-harmonic signal intensities independently of the received power.

摘要

通过实验室模拟展示了在室温下使用 1.66 微米分布反馈二极管激光器对空气中甲烷进行高灵敏度实时远程检测。激光电流以约 5 兆赫兹的高频进行调制,并且激光中心频率被锁定在甲烷吸收线上。指向探测区域的激光束在单程传输后或从地形目标进一步反射后被接收。通过光功率变化中的二次谐波分量检测甲烷吸收。在传输方案中,对于 1.3 秒的信号平均时间,最小可检测浓度 - 路径长度积为 10 的 6 次方分之 0.3 米。在反射方案中,甲烷量可从基波和二次谐波信号强度之比独立于接收功率进行测量。

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