A system for rapid chemical identification based on infrared signatures

Christopher J. Breshike; Christopher A. Kendziora; Drew M. Finton; Robert Furstenberg; Tyler Huffman; R. Andrew McGill

doi:10.1117/12.2587762

12 April 2021 A system for rapid chemical identification based on infrared signatures

Christopher J. Breshike, Christopher A. Kendziora, Drew M. Finton, Robert Furstenberg, Tyler Huffman, R. Andrew McGill

Proceedings Volume 11725, Next-Generation Spectroscopic Technologies XIV; 117250K (2021) https://doi.org/10.1117/12.2587762
Event: SPIE Defense + Commercial Sensing, 2021, Online Only

Abstract

Rapid scanning quantum cascade lasers are utilized in the detection of trace amounts of explosive materials. Infrared backscatter imaging spectroscopy employs a quick tuning infrared quantum cascade laser system to illuminate targets with mid-IR light, 6 – 11 μm in wavelength, and to perform spectroscopic measurements in less than one second. A narrow cone of the signal backscattered from targets at standoff distance is collected and imaged onto a liquid nitrogen cooled MCT focal plane array. This backscattered signal is processed into a hyperspectral image cube containing spectral and spatial information. The analysis of the experimental data measured with the system is discussed. This includes the processing of the raw camera frames (using signals from individual components of the system) into discrete wavelength bins, typically 0.01 μm in width. Spectra are generated by plotting the signal from regions of interest, typically clusters of adjacent pixels within the frames, as a function of the wavelength associated with the binned frames. These spectra are compared against the FTIR diffuse reflectance of the analytes on an equivalent substrate for identification. Methods to optimize signal to noise and produce identifications with high confidence are presented. For a single experiment, taking less than 1 second, with the camera running at full frame over 16,000 individual spectra are generated. Targets are prepared by sieving and also dry transfer to mimic real world threats, in trace amounts and on relevant substrates. Traces of explosives, as well as illicit drugs are investigated.

Conference Presentation

Citation Download Citation

Christopher J. Breshike, Christopher A. Kendziora, Drew M. Finton, Robert Furstenberg, Tyler Huffman, and R. Andrew McGill "A system for rapid chemical identification based on infrared signatures", Proc. SPIE 11725, Next-Generation Spectroscopic Technologies XIV, 117250K (12 April 2021); https://doi.org/10.1117/12.2587762

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