Abstract—It is shown that lidar sounding of the aquatic environment by laser radiation at a wavelength of 266 nm provides high sensitivity and reliability of detection of petroleum products. For use in marine lidars, two YAG:Nd3+ laser systems (laser-amplifier) with radiation conversion into the fourth harmonic (with lamp and diode pumping) are proposed.
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REFERENCES
E. Brown and M. F. Fingas, Marine Pollution Bull. 47, 477 (2003).
R. Reuter, H. Wang, R. W. Willkom, et al., Adv. Remote Sens. 3 (3), VII (1995).
A. Pashayev, B. Tagiyev, K. Allahverdiyev, et al., Proc. SPIE–Int. Soc. Opt. Eng. 9810, 981018 (2015).
V. Pelevin, A. Zlinszky, E. Khimchenko, and V. Toih, Int. J. Remote Sens. 38, 1967 (2017).
Taer Abd Deidan, S. V. Patsaeva, V. V. Fadeev, and V. I. Yuzhakov, Vestn. Mosk. Univ. Ser. 3. Fiz. Astron. 35 (2), 51 (1994).
Yu. V. Fedotov, M. L. Belov, O. A. Matrosova, and V. A. Gorodnichev, Izv. Vyssh. Uchebn. Zaved., Khim. Khim. Tekhnol. 55 (9/2), 105 (2012).
A. I. Lyashenko, Yu. A. Gol’din, and B. A. Gureev, Proceedings of the symposium “Measurement methods and mathematical modeling of physical processes: biophotonics, optics and radar,” Astrakhan: Triada, 2018, p. 54.
A. A. Kazakov, A. I. Lyashenko, and V. V. Strukova, RF patent No. 2325021, May 20, 2018.
E. M. Volodina and A. I. Lyashenko, RF Patent No. 204719, Byull. Izobret., No. 16 (08.06.2021).
A. I. Lyashenko, E. M. Volodina, S. M. Sapozhnikov, and A. V. Podkopaev, in Information Technologies and Technologies of Communications. Modern Achievements (Proc. 4th Int. Sci. Conf., Devoted to the 90 Ann. from Date of Basis Astrakhan Univ., 2020) (AGTU, Astrakhan’, 2020), p. 53.
A. I. Lyashenko, Fiz. Osn. Priborostr. 6 (3), 38 (2017).
V. M. Garmash, E. A. Isaeva, and A. I. Lyashenko, Fiz. Osn. Priborostr. 5 (3), 48 (2016).
Funding
This research was supported within state tasks on the topic FMWE-2021-0001 of the Institute of Oceanology, Russian Academy of Sciences and on topic FFNS-2022-0010 of the Scientific and Technological Center for Unique Instrumentation, Russian Academy of Sciences.
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Translated by E. Chernokozhin
This work was reported at the Fifth International Youth Conference “Information and Communication Technologies: Modern Achievements” (Astrakhan, October 4–7, 2021).
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Lyashenko, A.I., Volodina, E.M., Gol’din, Y.A. et al. YAG:Nd3+ Laser Systems for Marine UV Lidar. J. Commun. Technol. Electron. 67, 1475–1478 (2022). https://doi.org/10.1134/S1064226922120154
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DOI: https://doi.org/10.1134/S1064226922120154