Laser methods and technologies in agriculture Текст научной статьи по специальности «Медицинские технологии»

Laser methods and technologies in agriculture

S.V. Gudkov

Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow 119991, Russia

s_makariy@rambler. ru

The report at the conference will present both new theoretical and practical results of the use of modern laser, optical, and other methods and technologies in agriculture [1]. Technologies and materials for passive control of the solar spectrum in greenhouses will be considered [2]. A review of the instrumental base used for laser remote sensing of agro- and biosystems, modern laser express technologies used for rapid analysis of the chemical composition of a substance will be carried out [3,4]. Optical methods used in biological and agricultural diagnostics will be described [5,6], including methods based on Müller matrix polarimetry [7]. A separate part of the report will be devoted to the production and use of nano-sized objects in agriculture and the food industry [8,9]. The application of numerous plasma technologies in agriculture will also be discussed [10].

This research was funded by a grant from the Ministry of Science and Higher Education of the Russian Federation for large scientific projects in priority areas of scientific and technological development (subsidy identifier 075-15-2024-540).

[1] S.V. Gudkov, R.M. Sarimov, M.E. Astashev, R.Yu. Pishchalnikov, D.V. Yanykin, A.V. Simakin, A.V. Shkirin, D.A. Serov, E.M. Konchekov, N.G. Gusein-zade, V.N. Lednev, M.Ya. Grishin, P.A. Sdvizhenskii, S.M. Pershin, A.F. Bunkin, M.Kh. Ashurov, A.G. Aksenov, N.O. Chilingaryan, I.G. Smirnov, D.Yu. Pavkin, D.O. Hort, M.N. Moskovskii, A.V. Sibirev, Ya.P. Lobachevsky, A.S. Dorokhov, A.Yu. Izmailov, Modern physical methods and technologies in agriculture, Physics-Uspekhi, vol. 67(2), pp. 194-210, (2024).

[2] M.O. Paskhin, D.V. Yanykin, S.V. Gudkov, Current Approaches to Light Conversion for Controlled Environment Agricultural Applications: A Review, Horticulturae, vol. 8, pp. 885, (2022).

[3] V.N. Lednev, P.A. Sdvizhenskii, A.S. Dorohov, S.V. Gudkov, S.M. Pershin, Improving LIBS analysis of non-flat heterogeneous samples by signals mapping, Applied Optics, vol. 62(8), pp. 2030-2038, (2023).

[4] V.N. Lednev, M.Y. Grishin, P.A. Sdvizhenskii, R.K. Kurbanov, M.A. Litvinov, S.V. Gudkov, S.M. Pershin, Fluorescence Mapping of Agricultural Fields Utilizing Drone-Based LIDAR, Photonics, vol. 9, pp. 963, (2022).

[5] D.E. Burmistrov, D.Y. Pavkin, A.R. Khakimov, D.N. Ignatenko, E.A. Nikitin, V.N. Lednev, Y.P. Lobachevsky, S.V. Gudkov, A.V. Zvyagin, Application of Optical Quality Control Technologies in the Dairy Industry: An Overview, Photonics, vol. 8, pp. 551, (2021).

[6] S.V. Gudkov, T.A. Matveeva, R.M. Sarimov, A.V. Simakin, E.V. Stepanova, M.N. Moskovskiy, A.S. Dorokhov, A.Y. Izmailov, Optical Methods for the Detection of Plant Pathogens and Diseases (Review), AgriEngineering, vol. 5, pp. 1789-1812 (2023).

[7] D.N. Ignatenko, A.V. Shkirin, Y.P. Lobachevsky, S.V. Gudkov Applications of Mueller Matrix Polarimetry to Biological and Agricultural Diagnostics: A Review, Appl. Sci., vol. 12, pp. 5258, (2022).

[8] D.A. Serov, V.V. Khabatova, V. Vodeneev, R. Li, S.V. Gudkov, A Review of the Antibacterial, Fungicidal and Antiviral Properties of Selenium Nanoparticles, Materials, vol. 16, pp. 5363, (2023).

[9] S.V. Gudkov, D.E. Burmistrov, V.V. Smirnova, A.A. Semenova, A.B. Lisitsyn, A Mini Review of Antibacterial Properties of Al2O3 Nanoparticles, Nanomaterials, vol. 12(15), pp. 2635, (2022).

[10] E.M. Konchekov, N. Gusein-zade, D.E. Burmistrov, L.V. Kolik, A.S. Dorokhov, A.Y. Izmailov, B. Shokri, S.V. Gudkov, Advancements in Plasma Agriculture: A Review of Recent Studies, Int. J. Mol. Sci., vol. 24, pp. 15093, (2023).