Kinetic spectroscopy using a color center laser

International Laser Science Conference Pub Date : 1987-09-25 DOI:10.1063/1.36776

J. W. Stephens, Jeffrey L. Hall, W. Yan, H. Solka, Marilyn L. Richnow, R. Curl, G. Glass, F. Tittel

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引用次数: 1

Abstract

Infrared kinetic spectroscopy is being developed using a pulsed excimer laser for ultraviolet photolysis and a color center laser spectrometer as an infrared probe in the 2.3–3.0-μm region. Submicrosecond time resolution is possible with the 14-ns excimer laser pulses and the InSb detectors currently employed. Previous work on the Br, OH, and NH2 radicals has led to the development of three monitoring schemes based on the use of either balanced detectors, magnetic rotation, or short-time monitoring. Kinetic studies of the NH2 + NO reaction have measured the branching ratio of the two primary product channels by monitoring a number of precursors and products. Current work on the C2H radical produced by photolysis of acetylene has indicated an ~ 1-μs lifetime for this radical, demonstrating the ability to detect short-lived species. Other work includes the production of highly reactive O(1D) atoms by the photolysis of O3, providing a method for generating free radicals from stable molecules by hydrogen atom abstraction. Additional studies on the spectroscopy and kinetics of other free radicals are discussed.

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使用色心激光器的动力学光谱学

采用脉冲准分子激光器进行紫外光解，色心激光光谱仪作为红外探针，在2.3 ~ 3.0 μm范围内进行红外动力学光谱研究。目前使用的14ns准分子激光脉冲和InSb探测器可以实现亚微秒时间分辨率。先前对Br、OH和NH2自由基的研究导致了基于平衡检测器、磁旋转或短时间监测的三种监测方案的发展。NH2 + NO反应的动力学研究通过对前体和产物的监测，测量了两个主要产物通道的分支率。目前对乙炔光解产生的C2H自由基的研究表明，该自由基的寿命为~ 1 μs，证明了检测短寿命物质的能力。其他工作包括通过O3的光解产生高活性的O(1D)原子，提供了一种通过提取氢原子从稳定分子中产生自由基的方法。讨论了其他自由基的光谱和动力学的进一步研究。

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International Laser Science Conference

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