Оптико-акустическая лазерная технология анализа  паров взрывчатых и отравляющих веществ  в среднем инфракрасном диапазоне

А.И. Карапузиков; Ш.Ш. Набиев

doi:10.18321/

Authors

A.I. Karapuzikov LLC «Special technologies», Russian Research Center «Kurchatov Institute»
Sh.Sh. Nabiev LLC «Special technologies», Russian Research Center «Kurchatov Institute»

DOI:

https://doi.org/10.18321/

Keywords:

optics, laser, explosives, infrared range

Abstract

In this work discusses real opportunities of analysers for of detection of vapour of explosives, organic substances and other substances in ambient air based on technology of laser of optical-acoustic of spectroscopy using tunable wave-guide СО₂- lasers.

References

(1) Krausa M., Reznev A. Vapor and Trace Detection of Explosives for Anti-Terrorism Purposes. – Dordrecht: Springer Netherlands, 2004. – 152 p.

(2) Moore D. S. Instrumentation for trace detection of high explosives // Review of Scientific Instruments. – 2004. – Vol. 75. – P. 9–38.

(3) Gruznov V. M., Baldin M. N., Filonenko V. G. High-speed gas analysis for explosives detection // NATO Science Series. II: Mathematics, Physics and Chemistry. – 2004. – Vol. 167. – P. 87–99.

(4) Pella P. A. Measurement of the vapor pressure of TNT, 2,4-DNT, 2,6-DNT and EGDN // Journal of Chemical Thermodynamics. – 1977. – Vol. 9. – P. 301–305.

(5) Explosives. – 6th ed. / Eds. R. Meyer, J. Köhler, A. Homburg. – New York: Wiley-VCH, 2007. – 430 p.

(6) Sun Y., Ong K. Y. Detection Technologies for Chemical Warfare Agents and Toxic Vapors. – New York–London: CRC Press, 2004. – 288 p.

(7) Ellison D. H. Handbook of Chemical and Biological Warfare Agents. – 2nd ed. – New York–London: CRC Press, 2007. – 800 p.

(8) Григорьев Г. Ю., Карапузиков А. И., Набиев Ш. Ш. и др. Комплексная лазерно-оптическая система обнаружения взрывчатых веществ в открытой атмосфере // Вопросы оборонной техники. Сер. 16: Технические средства противодействия терроризму. – 2009. – Вып. 1–2. – С. 86–96.

(9) Van Neste C. W., Senesac L. R., Thundat T. Standoff photoacoustic spectroscopy // Applied Physics Letters. – 2008. – Vol. 92. – P. 234102.

(10) Bartlome R., Kaucikas M., Sigrist M. Modulated resonant versus pulsed resonant photoacoustics in trace gas detection // Applied Physics B. – 2009. – Vol. 96. – P. 561–566.

(11) Miklós A., Hess P., Bozóki Z. Application of acoustic resonators in photoacoustic trace gas analysis and metrology // Review of Scientific Instruments. – 2001. – Vol. 72, No. 4. – P. 1937–1955.

(12) Chang-Myung Lee, Bychkov K. V., Kapitanov V. A., Karapuzikov A. I. et al. High-sensitivity laser photoacoustic leak detector // Optical Engineering. – 2007. – Vol. 46. – P. 064302.

(13) Патенты РФ на полезные модели № 38228, 51746, 90905.

(14) Crane R. A. Laser optoacoustic absorption spectra for various explosive vapors // Applied Optics. – 1978. – Vol. 17, No. 13. – P. 2097–2102.

(15) Patel C. K. N. Laser photoacoustic spectroscopy helps fight terrorism: high sensitivity detection of chemical warfare agents and explosives // The European Physical Journal. Special Topics. – 2008. – Vol. 153, No. 1. – P. 1–18.

(16) Patel C. K. N. All About Infrared Lasers and Applications // Keynote Address at the 9th International Conference on Fiber Optics and Photonics (PHOTONICS-2008), 13–17 December 2008, New Delhi, India. – Режим доступа: http://web.iitd.ac.in/