Influence of the spectral width of the CO2 laser lines on the error of gas concentration measurements on the example of ammonia
The influence of the parameters of CO2 laser radiation (width and contour of laser lines) on the main isotope of the molecule on the absorption coefficient of a gaseous compound is analyzed using ammonia as an example. To determine the content of gaseous ammonia, the results of using a CO2 laser are considered and possible errors in determining the gas concentration when neglecting the specific spectral linewidth of the CO2 laser are analyzed.
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Keywords
CO2 laser, line width, ammonia, atmosphere, gas analysis, emission, absorption, transmissionAuthors
| Name | Organization | |
| Voitsekhovskaya O.K. | National Research Tomsk State University | vok44@mail.tsu.ru |
| Shefer O.V. | National Research Tomsk Polytechnic University | shefer-ol@mail.ru |
References
Хинкли Э.Д. Лазерный мониторинг атмосферы. - М.: Мир, 1976. - 412 с.
Measures R.M. Laser Remote Sensing, Fundamentals and Applications. - Krieger Publishing Co. Malabar. FL, 1992. - 550 p.
Kullinger D.K. and Mooradian A. Optical and Laser Remote Sensing. - N.Y.: Springer Verlag, 1983. - 326 p.
Svitch M.L. Waveguide Gas Lasers (in Laser Handbook). - Amsterdam: P.O. Box 103. North Holland Physics Publishing, 1986. - P. 41-88.
Mitrayana, Nikita J.G., Wasono M.A.J., and Satriawan M.// Sensing and Bio-Sensing Research. - 2020. - V. 30. - P. 100387. https://doi.org/10.1016/j.sbsr.2020.100387.
Dumitras D.C. et al. // Laser Phys. - 2011. - V. 21. - P. 796-800. https://doi.org/10.1134/S1054660X11070061.
Essiet I. // J. Emerg. Trends Eng. Appl. Sci. - 2013. - V. 4. - P. 859-862.
Queißer D.A., Burton M., and Fiorani L. // Opt. Express. - 2015. - V. 23. - P. 6634-6644. https://doi.org/10.1364/OE.23.006634.
Fiorani L., Colao F., and Palucci F. // Opt. Lett. - 2009. - V. 34. - P. 800-802.
Aiuppa A., Fiorani L., Santoro S., et al. // Sci. Rep. - 2015. - V. 5. - P. 13614. https://doi.org/ 10.1038/srep13614.
Harren F.J.M., Mandon J., and Cristescu S.M. Photoacoustic Spectroscopy in Trace Gas Monitoring. - Encyclopedia of Analytical Chemistry. John Wiley & Sons. Ltd., 2012. http://doi.org/10.1002/ 9780470027318.a0718.pub2.
Лазерное зондирование атмосферы / ред. В.Е. Зуев. - М.: Наука, 1976. - 154 c.
Fujiia T. and Fukuchi T. Laser Remote Sensing. - Tokyo: Taylor & Francis Group, 2005. - 923 p.
Gaudio P., Gelfusal M., Malizial A., et al. // J. Phys.: Conf. Ser. - 2015. - V. 658. - P. 012004.
Pal A., Clark C.D., Sigman M., and Killinger D.K. // J. Appl. Opt. - 2009. - V. 48. - P. B145- B150. https://doi.org/10.1364/AO.48.00B145.
Groft B., Wentworth G.R., Martin R.V., et al. // Nature Commun. - 2016. - V. 15. - P. 13444. DOI: 10.1038/ncomms13444/
Amy-Klein A., Vigue′ H., and Chardonnet C.J. // Mol. Spectrosc. - 2004. - V. 228. - P. 206-212.
Freed C., Bradley L.S., and O’Donnell R.G. // IEEE J. Quantum Electron. - 1980. - V. 16. - P. 1195-1206.
Beck R., Englisch W., and Gurs K. Table of Laser Lines in Gases and Vapors. - Springer Series in Optical Sciences, 1978. - 203 p.
http://www.slab-laser.ru/CO2-lasers.html
Voitsekhovskaya O.K., Aksenova E.N., and Shatrov F.G. // J. Appl. Opt. - 1999. - V. 38. - P. 2337-2341.
Хирд Г. Измерение лазерных параметров: пер. с англ. - М.: Мир, 1970. - 540 с.
Svelto O. Principles of Lasers. - Third edition. - New York; London: Plenum Press, 1984. - 550 p.
Duarte F.J. // J. Appl. Opt. - 1985. - V. 24. - P. 34-37.
Kunents A.V., Makarov G.N., Mironenko V.R., and Pak I. // Opt. Commun. - 1991. - V. 84. - P. 37-41.
Горохов Ю.А., Ефимов С.В., Князев И.Н., Лобко В.В. // Квантовая электроника. - 1979. - T. 6. - P. 2382-2392.
Al-Hawat S., Saloum S., and Zidan M.D. // Appl. Phys. B. - 2004. - V. 78. - P. 439-442. DOI: 10.1007/s00340-003-1376-3.
Kimura W.D. // Opt. Laser Technol. - 2017. - V. 88. - P. 263-274.
Rothman L.S., Gordon I.E., Babikov Y., et al. // J. Quant. Spectrosc. Radiat. Transfer. - 2013. - V. 130. - P. 4-50.
Gordon I.E. Rothman L.S., Hill C., et al. // J. Quant. Spectrosc. Radiat. Transfer. - 2017. - V. 203. - P. 3-69.
Jacquinet-Husson N., Armante R., Scott N.A., et al. // J. Quant. Spectrosc. Radiat. Transfer. - 2016. - V. 327. - P. 31-72.
Rakhymzhan A.A. and Chichinin A.I. // ISRN Analyt. Chem. - 2013. - ID 592971. - 11 p. https://doi.org/10.1155/2013/592971.
Войцеховская О.К., Кузнецов С.В., Сапожников С.В. и др. // Оптика атмосферы и океана. - 1991. - T. 4. - С. 938-953.
Dumitras D.C., Bratu A.M., and Popa C. CO2 Laser Photoacoustic Spectroscopy: II. Instrumentation and Applications. CO2 Laser. Optimisation and Applications / ed. Dr. Dan C. Dumitras. - 2012. - 102 p.
Force A.P., Killinger D.K., DeFeo W.E., and Menyuk N.// J. Appl. Opt. - 1985. - V. 24. - P. 2837-2841.
Войцеховская О.К., Каширский Д.Е., Егоров О.В. // Изв. вузoв. Физика. - 2015. - T. 58. - № 10/3. - С. 129-131.
Тимофеев Ю.М., Васильев А.В. Теоретические основы атмосферной оптики. - СПб.: Наука, 2003. - 474 с.
Brewer R.J. and Bruce C.W. // J. Appl. Opt. - 1978. - V. 17. - P. 3746-3749. https://doi.org/10.1364/ AO.17.003746.
Адаменков А.А., Булкин Ю.Н., Колобянин Ю.В., Кудряшов Е.А. // Оптика атмосферы и океана. - 1995. - T. 8. - C. 549-553.
Zhao Y. // J. Appl. Opt. - 2000. - V. 39. - P. 997-1007.
Войцеховская О.К., Волков Д.М., Каширский Д.Е., Корчиков В.С. // Квантовая электроника. - 2012. - № 7. - C. 634-639.
