I. A. Razenkov, “A Heuristic Approach to Defining the Structure Parameter of the Refractive Index of the Atmosphere from Turbulent Lidar Data”, Atmos Ocean Opt, 35:4 (2022), 345
Hosam El-Ocla, “Enhancement of Radar Detection Accuracy Using H-Beam Wave Polarization in Random Media”, Electronics, 10:22 (2021), 2804
I. A. Razenkov, “Experimental Estimation of the Backscatter Enhancement Peak”, Atmos Ocean Opt, 34:2 (2021), 111
I. A. Razenkov, “Capabilities of a Turbulent BSE-Lidar for the Study of the Atmospheric Boundary Layer”, Atmos Ocean Opt, 34:3 (2021), 229
Rytchkov D.S., “Investigation of Spatial Coherence of Vortex Laser Beam Propagated on Monostatic Location Path in Turbulent Atmosphere Using Numerical Simulations Methods”, Proceedings of Spie, 11560, ed. Matvienko G. Romanovskii O., Spie-Int Soc Optical Engineering, 2020, 115601I
A A Kalinkevich, B G Kutuza, V Yu Manakov, V M Masyuk, V A Plyushchev, “Revisiting the conducting of measurements from the board of International Space Station by decimeter synthetic aperture radar system”, J. Phys.: Conf. Ser., 1632:1 (2020), 012015
I. A. Razenkov, “Specifics of Sounding the Atmospheric Boundary Layer with a Turbulent Lidar”, Atmos Ocean Opt, 33:6 (2020), 610
Mikhail V. Tinin, Gennadii G. Matvienko, Oleg A. Romanovskii, 26th International Symposium on Atmospheric and Ocean Optics, Atmospheric Physics, 2020, 206
Hosam El‐Ocla, “Frequency Selection to Avoid Medium Effects on RCS of Conducting Objects With Plane E Wave Polarization”, Radio Science, 55:12 (2020)
Hosam El-Ocla, 2019 IEEE Canadian Conference of Electrical and Computer Engineering (CCECE), 2019, 1