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http://dx.doi.org/10.9766/KIMST.2019.22.3.433

The Design and Test of the Stand-off Surface Chemical Contaminant Detection System based on Raman Spectroscopy  

Koh, Young Jin (The 4th Research and Development Institute, Agency for Defense Development)
Publication Information
Journal of the Korea Institute of Military Science and Technology / v.22, no.3, 2019 , pp. 433-440 More about this Journal
Abstract
In order to detect toxic chemical spread on field ground, we developed stand-off Raman spectrometer system which employed a deep UV laser. In this paper, the design and specification of various components in the spectrometer system are described. Some results when the detection system was tested on the outdoor roads are shown, which may help researching stand-off chemical detectors based on Raman spectroscopy.
Keywords
Deep UV Laser; Raman Scattering; Stand-off Detection; Chemical Detection;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 J. O. Lee and Y. J. Koh, "Deep UV Raman Spectra of Chemical Agent Simulant by using 248 nm Laser In Open Fields," The 121 th General Meeting of the Korean Chemical Society, ORGN.P-417, Apr. 2018.
2 National Consortiumfor the Study of Terrorismand Responses to Terrorism(START), Global Terrorism Database [Data File], 2017. http://www.start.umd.edu/gtd
3 K. L. Gares, K. T. Hufziger, S. V. Bykov and S. A. Asher, "Review of Explosive Detection Methodologies and the Emergence of Standoff Deep UV Resonance Raman," J. Raman Spectrosc., Vol. 47, pp. 124-141, Jan. 2016.   DOI
4 J. J. Brady, S. D. Roberson, M. E. Farrell, E. L. Holthoff, D. N. Stratis-Cullum and P. M. Pellegrino, "Laser-induced Breakdown Spectroscopy: A Review of Applied Explosive Detection," ARMY RESEARCH LAB ADELPHI MD SENSORS AND ECLECTRON DEVICES DIRECTORATE, Sep. 2013.
5 S. K. Choi, Y. S. Jeong, J. H. Lee and Y. C. Ha, "Deep UV Raman Spectroscopic Study for the Standoff Detection of Chemical Warfare Agents from the Agent-Contaminated Ground Surface," Journal of the Korea Institute of Military Science and Technology, Vol. 18, pp. 612-620, Oct. 2015.   DOI
6 F. Yan and T. Vo-Dinh, "Surface-enhanced Raman Scattering Detection of Chemical and Biological Agents Using a Portable Raman Integrated Tunable Sensor," Sens. Actuators B. Vol. 121, pp. 61-66, Jan. 2007.   DOI
7 A. J. Sedlacek, M. D. Ray, N. S. Higdon and D. A. Richter, "Short-range Noncontact Detection of Surface Contamination Using Raman Lidar," in Proc. of SPIE, Vol. 4577, pp. 95-104, Feb. 2002.
8 W. F. Hug, R. Bhartia, A. Tsapin, A. Lane, P. Conrad, K. Sijapati and R.D. Reid, "Water and Surface Contamination Monitoring Using Deep UV Laser," in Proc. of SPIE, Vol. 6378, pp. 63780S-1-63780S-13, July. 2006.
9 M. D. Ray and A. J. Sedlacek, "Mini-Raman Lidar System for Stand-off, In Situ Interrogation of Surface Contaminants," in Proc. of SPIE, Vol. 3707, pp. 138-147, Nov. 2013.
10 Y. C. Ha, J. H. Lee, Y. J. Koh, S. K. Lee and Y. K. Kim, "Raman Spectrometer for Detection of Chemicals on Road," Korean Journal of Optics and Photonics, Vol. 28, pp. 16-121, June. 2017.   DOI
11 Y. J. Koh, J. H. Lee, Y. S. Jeong and J. O. Lee, "Measurement of Raman Scattering Signals for Toxic Chemicals Using Deep UV Laser", The 118th General Meeting of the Korean Chemical Society, PHYS.P-371, Oct. 2016.
12 Y. C. Ha, J. H. Lee, Y. J. Koh, S. K. Lee and Y. K. Kim, "Development of an Ultraviolet Raman Spectrometer for Standoff Detection of Chemicals," Current Optics and Photonics, Vol. 1, pp. 247-251, June. 2017.   DOI
13 S. T. Christesen, J. P. Jones, J. M. Lochner and A. M. Hyre, "Ultraviolet Raman Spectral and Cross-Sections of the G-series Nerve Agents," Applied Spectroscopy, Vol. 62, pp. 1078-1083, Nov. 2008.   DOI
14 S. L. Bartelt-Hunt, D. R. U. Knappe and M. A. Barlaz, "A Review of Chemical Warfare Agent Simulants for the Study of Environmental Behavior," Crit. Rev. Environ. Sci. Technol., Vol. 38, pp. 112-136, Jan. 2008   DOI
15 R. D. Massaro, Y. Dai and E. B. Barojas, "Energetics and Vibrational Analysis of Methyl Salicylate Isomers," J. Phys. Chem. A. Vol. 113, pp. 10385-10390, Aug. 2009.   DOI
16 Y. H. Lee and S. Farquharson, "Rapid Chemical Agent Identification by Surface-enhanced Raman Spectroscopy," in Proc. of SPIE, Vol. 4378, pp. 21-26, Feb. 2001.
17 A. J. Sedlacek, M. D. Ray and M. Wu, "Application of UV Raman Scattering to Non-traditional Standoff Chemical Detection," Trends Appl. Spectrosc, Vol. 5, pp. 19-38, 2004.
18 C. K. Manka, S. Nikitin, R. Lunsford, P. Kunapareddy and J. Grun, "Wavelength-dependent Amplitude of Teflon Raman Lines," J. Raman Spectrosc., Vol. 42, pp. 685-690, Apr. 2011.   DOI