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PIER PIER B PIER C PIER M PIER Letters
2018-10-29
Concept of Experimental Simulator for Studying Longitudinal Magnetic Wave Propagation in Dielectric Samples
By
Yuriy M. Penkin,

    Dr. Yuriy M. Penkin

    Department of Radiophysics

    V. N. Karazin Kharkov National University

    Ukraine

    Homepage

Viktor A. Katrich,

    Dr. Viktor A. Katrich

    Department of Radiophysics, Biomedical Electronics and Computer Systems

    V. N. Karazin Kharkiv National University

    Ukraine

    Homepage

Dmitriy Yu. Penkin,

    Dr. Dmitriy Yu. Penkin

    Department of Radiophysics

    V. N. Karazin Kharkov National University

    Ukraine

    Homepage

Mikhail Nesterenko

    Dr. Mikhail Nesterenko

    Department of Radiophysics

    V. N. Karazin Kharkov National University

    Ukraine

    Homepage

Progress In Electromagnetics Research Letters, Vol. 79, 109-113, 2018
doi:10.2528/PIERL18092705
Abstract
A concept of an experimental simulator for studying longitudinal magnetic waves in dielectric samples and its electrodynamic justification are presented. The simulator is intended to control impact power and frequencies of wave processes. The simulator is realized as a two-channel junction consisting of perpendicularly crossed infinite rectangular waveguides with slot coupling. The simulation process is based on cyclic mechanical displacements of dielectric samples along the longitudinal axis of the waveguide in a quasistationary magnetic field localized in the slot region.
Citation
Yuriy M. Penkin, Viktor A. Katrich, Dmitriy Yu. Penkin, and Mikhail Nesterenko, "Concept of Experimental Simulator for Studying Longitudinal Magnetic Wave Propagation in Dielectric Samples," Progress In Electromagnetics Research Letters, Vol. 79, 109-113, 2018.
doi:10.2528/PIERL18092705
References

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3. Ginzburg, V. L., Propagation of Electromagnetic Waves in Plasmas, Pergamon Press, 1970.

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doi:10.1209/epl/i2002-00136-9

5. Abdulkerimov, S. A., Yu. M. Yermolayev, and B. N. Rodionov, Longitudinal Eelectromagnetic Waves. Theory, Experiments, Prospects of Application, 2003 (in Russian).

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7. Penkin, Yu. M., S. L. Berdnik, V. A. Katrich, and M. V. Nesterenko, "Influence of a dielectric insert on energy characteristics of a cruciform waveguide junction," Proc. XXI-th Inter.Seminar/Workshop “Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory, 42-45, Tbilisi, Georgia, 2016.

8. Nesterenko, M. V., V. A. Katrich, D. Yu. Penkin, S. L. Berdnik, and V. I. Kijko, "Electromagnetic waves scattering and radiation by vibrator-slot structure in a rectangular waveguide," Progress In Electromagnetics Research M, Vol. 24, 69-84, 2012.
doi:10.2528/PIERM12022206

9. Nesterenko, M. V., V. A. Katrich, Yu. M. Penkin, and S. L. Berdnik, Analytical and Hybrid Methods in Theory of Slot-Hole Coupling of Electrodynamic Volumes, Springer Science + Business Media, 2008.
doi:10.1007/978-0-387-76362-0

10. Yatsuk, L. P., A. V. Zhironkina, V. A. Katrich, and Yu. M. Penkin, "Solution of an excitation problem of a rectangular waveguide by a magnetic current," Izv. Vuzov. Radioelektronika, Vol. 30, No. 5, 37-41, 1987 (in Russian).

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