Papers by Vakhtang Barbakadze
Singularities’ Distribution of the Field’s Analytical Continuation, Scattered by the Front Part of the Mirror Sphere
2019 XXIVth International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED)
In this article there is investigated the character of the singularities’ distribution correspond... more In this article there is investigated the character of the singularities’ distribution corresponding to the analytical continuation of the field reflected by the front part of the perfect electric conductor sphere illuminated by the electromagnetic waves point source. The analysis of these singularities show, that they represent the distorted image of the incident wave source and are distributed on the caustic surface. The discrete character of the singularities, when the ratio of the sphere radius and the incident wave length is finite, is explained by the Fresnel zone method. The numerical experiments performed to determine the scattered field’s singularities confirm theoretical reasoning based on geometrical optics and Fresnel’s zone method.
Directed Circular Polarized Antenna
The goal of proposed research is to construct the circular polarized narrow-band directed antenna... more The goal of proposed research is to construct the circular polarized narrow-band directed antenna using low-loss dielectric and high relative permittivity material for the substrate. Presented first part contains the simulation of such antenna using the software which based on Finite Element Method for the purpose to fined optimal parameters of such antenna before its construction. Using numerical experiment we suppose to determine best parameters of antenna, to achieve desired radiation parameters: well matched to the open space; circular polarization of radiated field; narrow-beam; wide-ban. It was designed 2.49 GHz and 2.4 GHz circular polarization radiation patch antennas, which was archived by cutting edges from square patch antenna. For simulation it was used 6.8 relative permittivity material for the substrate.
Complex Geometry Adaptive Antenna
2021 IEEE 26th International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED), 2021
The goal of the proposed research is to construct the Phase controlled directed antenna using low... more The goal of the proposed research is to construct the Phase controlled directed antenna using low-loss dielectric and high relative permittivity material for the substrate. In this paper also presented two beams antenna. First part of the paper contains the simulation of such antenna using the software, based on the Finite Element Method for the purpose to find optimal parameters of such antenna before its construction. Our goal is to find the best parameters of the antenna, using the numerical experiment, to achieve desired radiation parameters: well matching to the open space; phase controlled narrow-beam; wide-band. There was designed phase controlled and two beams patch antennas at 7.6 GHz and 7.8 GHz respectively. Phase controlled antenna was archived by cutting patch antenna by half. Two beams antenna where made by cutting patch by two parts same type cutting corners from it. For simulation it was used 6.8 relative permittivity material for the substrate.
The goal of the proposed research is to construct the Phase controlled directed antenna using low... more The goal of the proposed research is to construct the Phase controlled directed antenna using low-loss dielectric and high relative permittivity material for the substrate. In this paper also presented two beams antenna. First part of the paper contains the simulation of such antenna using the software, based on the Finite Element Method for the purpose to find optimal parameters of such antenna before its construction. Our goal is to find the best parameters of the antenna, using the numerical experiment, to achieve desired radiation parameters: well matching to the open space; phase controlled narrow-beam; wide-band. There was designed phase controlled and two beams patch antennas at 7.6 GHz and 7.8 GHz respectively. Phase controlled antenna was archived by cutting patch antenna by half. Two beams antenna where made by cutting patch by two parts same type cutting corners from it. For simulation it was used 6.8 relative permittivity material for the substrate.
In this article there is investigated the character of the singularities' distribution correspond... more In this article there is investigated the character of the singularities' distribution corresponding to the analytical continuation of the field reflected by the front part of the perfect electric conductor sphere illuminated by the electromagnetic waves point source. The analysis of these singularities show, that they represent the distorted image of the incident wave source and are distributed on the caustic surface. The discrete character of the singularities, when the ratio of the sphere radius and the incident wave length is finite, is explained by the Fresnel zone method. The numerical experiments performed to determine the scattered field's singularities confirm theoretical reasoning based on geometrical optics and Fresnel's zone method.
The goal of proposed research is to construct the circular polarized narrow-band directed antenna... more The goal of proposed research is to construct the circular polarized narrow-band directed antenna using low-loss dielectric and high relative permittivity material for the substrate. Presented first part contains the simulation of such antenna using the software which based on Finite Element Method for the purpose to fined optimal parameters of such antenna before its construction. Using numerical experiment we suppose to determine best parameters of antenna, to achieve desired radiation parameters: well matched to the open space; circular polarization of radiated field; narrow-beam; wide-ban. It was designed 2.49 GHz and 2.4 GHz circular polarization radiation patch antennas, which was archived by cutting edges from square patch antenna. For simulation it was used 6.8 relative permittivity material for the substrate.
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Papers by Vakhtang Barbakadze