212 citations to https://www.mathnet.ru/rus/ufn8846
  1. Xizheng Ke, Optical Wireless Communication Theory and Technology, Partially Coherent Optical Transmission Theory in Optical Wireless Communication, 2025, 131  crossref
  2. I. A. Razenkov, “Sounding of Kelvin–Helmholtz Waves by a Turbulent Lidar: I–BSE-4 Lidar”, Atmos Ocean Opt, 37:1 (2024), 55  crossref
  3. I. A. Razenkov, “Sounding of Kelvin–Helmholtz Waves by a Turbulent Lidar: II–BSE-5 Lidar”, Atmos Ocean Opt, 37:2 (2024), 220  crossref
  4. I. A. Razenkov, B. D. Belan, A. V. Mikhal'chishin, G. A. Ivlev, “The Use of the Turbulent Lidar for Aviation Safety”, Atmos Ocean Opt, 37:4 (2024), 492  crossref
  5. Igor A. Razenkov, Oleg A. Romanovskii, 29th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, 2023, 150  crossref
  6. Mikhail V. Tinin, Oleg A. Romanovskii, 29th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, 2023, 73  crossref
  7. Makarov P. Ustyugov V. Kotov L. Nekipelov S. Sivkov V., “Simulation of Electromagnetic Wave Propagation in Magnetic Randomly Inhomogeneous Magnetic Media”, IEEE Magn. Lett., 13 (2022), 2101305  crossref  isi
  8. I. A. Razenkov, “Engineering and Technical Solutions When Designing a Turbulent Lidar”, Atmos Ocean Opt, 35:S1 (2022), S148  crossref
  9. I. A. Razenkov, “Comparison between Turbulent Lidar Data and Meteorological Measurements”, Atmos Ocean Opt, 35:5 (2022), 501  crossref
  10. Reid K. McCargar, Roger H. Lang, “Out-of-plane enhancement in a discrete random halfspace”, Waves in Random and Complex Media, 32:5 (2022), 2221  crossref
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