Experimental demonstration of remote optical detection of trace explosives

C. Wynn, S. Palmacci, R. Kunz, J. Zayhowski, B. Edwards, M. Rothschild
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引用次数: 19

Abstract

MIT Lincoln Laboratory has developed a concept that could enable remote (10s of meters) detection of trace explosives' residues via a field-portable laser system. The technique relies upon laser-induced photodissociation of nitro-bearing explosives into vibrationally excited nitric oxide (NO) fragments. Subsequent optical probing of the first vibrationally excited state at 236 nm yields narrowband fluorescence at the shorter wavelength of 226 nm. With proper optical filtering, these photons provide a highly sensitive explosives signature that is not susceptible to interference from traditional optical clutter sources (e.g., red-shifted fluorescence). Quantitative measurements of trace residues of TNT have been performed demonstrating this technique using a breadboard system, which relies upon a pulsed optical parametric oscillator (OPO) based laser. Based on these results, performance projections for a fieldable system are made.
痕量爆炸物远程光学探测的实验论证
麻省理工学院林肯实验室开发了一种概念,可以通过现场便携式激光系统远程(10米)检测痕量爆炸物残留物。该技术依靠激光诱导的含氮炸药光解成振动激发的一氧化氮(NO)碎片。随后在236 nm处对第一振动激发态进行光学探测,在较短的226 nm波长处产生窄带荧光。通过适当的光学滤波,这些光子提供了高度敏感的爆炸物特征,不容易受到传统光学杂波源(例如,红移荧光)的干扰。使用面包板系统对TNT的痕量残留物进行了定量测量,该系统依赖于脉冲光学参量振荡器(OPO)激光器。基于这些结果,对可现场系统进行了性能预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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