Islam IslamovIslam Islamov. 2024. Radio Engineering and Telecommunications Waveguide Systems in the Microwave Range. Radio Engineering and Telecommunications Waveguide Systems in the Microwave Range
33
98
.
I. J. Islamov, E. A. Mammadov, A. R. Rustamov, Kh. Kh. Hashimov & H. Sh. Nabiyev. 2023. Towards Industry 5.0. Towards Industry 5.0
594
606
.
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2022) Some Features of the Circular Ferrite-Dielectric Waveguide Phase Shifter of Azimuthal Magnetization. Some Features of the Circular Ferrite-Dielectric Waveguide Phase Shifter of Azimuthal Magnetization.
I.J. Islamov, E.Z. Hunbataliyev & A.E. Zulfugarli. (2021) Numerical simulation of characteristics of propagation of symmetric waves in microwave circular shielded waveguide with a radially inhomogeneous dielectric filling. International Journal of Microwave and Wireless Technologies 14:6, pages 761-767.
Crossref
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2022) Numerical Analysis of the Azimuthally Magnetized Ferrite-Dielectric Circular Waveguide. Numerical Analysis of the Azimuthally Magnetized Ferrite-Dielectric Circular Waveguide.
I. J. Islamov & M. N. Nuriyev. Simulation of a circular waveguide with a complex structure for transmission of microwave signals. Simulation of a circular waveguide with a complex structure for transmission of microwave signals.
I. J. Islamov, I. G. Huseynli & R. Sh Abdullayev. Modeling of a resonator in a rectangular waveguide for transmitting electromagnetic energy. Modeling of a resonator in a rectangular waveguide for transmitting electromagnetic energy.
I. J. Islamov, E. Z. Hunbataliyev, R. Sh. Abdullayev, N. M. Shukurov & Kh. Kh. Hashimov. 2022. Digitizing Production Systems. Digitizing Production Systems
550
558
.
I. J. Islamov, E. Z. Hunbataliyev & A. E. Zulfugarli. (2021) Modeling of Microwave Waveguide System with Complex Structure in Non-Linear. Modeling of Microwave Waveguide System with Complex Structure in Non-Linear.
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2016) Condition for phase shifter operation of the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid. Condition for phase shifter operation of the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid.
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2016) Analysis of the differential phase shift in the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid. Analysis of the differential phase shift in the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid.
Ahmet Aydogan & Funda Akleman. (2014) Analysis of Direct and Inverse Problems Related to Circular Waveguides Loaded With Inhomogeneous Lossy Dielectric Objects. IEEE Transactions on Microwave Theory and Techniques 62:6, pages 1291-1300.
Crossref
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2014) Numerical study of the differential phase shift in the azimuthally magnetized coaxial ferrite waveguide. Numerical study of the differential phase shift in the azimuthally magnetized coaxial ferrite waveguide.
Georgi Nikolov Georgiev & Mariana Nikolova Georgieva-Grosse. (2012) Propagation in the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid. Propagation in the circular waveguide, containing an azimuthally magnetized ferrite cylinder and a dielectric toroid.
Mariana Nikolova Georgieva-Grosse & Georgi Nikolov Georgiev. (2012) Numerical modeling of the area of phase shifter operation of the azimuthally magnetized circular ferrite waveguide. Numerical modeling of the area of phase shifter operation of the azimuthally magnetized circular ferrite waveguide.