Search search
submit Submit
Publication Date
to
Vol. 79
Latest Volume
All Volumes
PIERL 119 [2024] PIERL 118 [2024] PIERL 117 [2024] PIERL 116 [2024] PIERL 115 [2024] PIERL 114 [2023] PIERL 113 [2023] PIERL 112 [2023] PIERL 111 [2023] PIERL 110 [2023] PIERL 109 [2023] PIERL 108 [2023] PIERL 107 [2022] PIERL 106 [2022] PIERL 105 [2022] PIERL 104 [2022] PIERL 103 [2022] PIERL 102 [2022] PIERL 101 [2021] PIERL 100 [2021] PIERL 99 [2021] PIERL 98 [2021] PIERL 97 [2021] PIERL 96 [2021] PIERL 95 [2021] PIERL 94 [2020] PIERL 93 [2020] PIERL 92 [2020] PIERL 91 [2020] PIERL 90 [2020] PIERL 89 [2020] PIERL 88 [2020] PIERL 87 [2019] PIERL 86 [2019] PIERL 85 [2019] PIERL 84 [2019] PIERL 83 [2019] PIERL 82 [2019] PIERL 81 [2019] PIERL 80 [2018] PIERL 79 [2018] PIERL 78 [2018] PIERL 77 [2018] PIERL 76 [2018] PIERL 75 [2018] PIERL 74 [2018] PIERL 73 [2018] PIERL 72 [2018] PIERL 71 [2017] PIERL 70 [2017] PIERL 69 [2017] PIERL 68 [2017] PIERL 67 [2017] PIERL 66 [2017] PIERL 65 [2017] PIERL 64 [2016] PIERL 63 [2016] PIERL 62 [2016] PIERL 61 [2016] PIERL 60 [2016] PIERL 59 [2016] PIERL 58 [2016] PIERL 57 [2015] PIERL 56 [2015] PIERL 55 [2015] PIERL 54 [2015] PIERL 53 [2015] PIERL 52 [2015] PIERL 51 [2015] PIERL 50 [2014] PIERL 49 [2014] PIERL 48 [2014] PIERL 47 [2014] PIERL 46 [2014] PIERL 45 [2014] PIERL 44 [2014] PIERL 43 [2013] PIERL 42 [2013] PIERL 41 [2013] PIERL 40 [2013] PIERL 39 [2013] PIERL 38 [2013] PIERL 37 [2013] PIERL 36 [2013] PIERL 35 [2012] PIERL 34 [2012] PIERL 33 [2012] PIERL 32 [2012] PIERL 31 [2012] PIERL 30 [2012] PIERL 29 [2012] PIERL 28 [2012] PIERL 27 [2011] PIERL 26 [2011] PIERL 25 [2011] PIERL 24 [2011] PIERL 23 [2011] PIERL 22 [2011] PIERL 21 [2011] PIERL 20 [2011] PIERL 19 [2010] PIERL 18 [2010] PIERL 17 [2010] PIERL 16 [2010] PIERL 15 [2010] PIERL 14 [2010] PIERL 13 [2010] PIERL 12 [2009] PIERL 11 [2009] PIERL 10 [2009] PIERL 9 [2009] PIERL 8 [2009] PIERL 7 [2009] PIERL 6 [2009] PIERL 5 [2008] PIERL 4 [2008] PIERL 3 [2008] PIERL 2 [2008] PIERL 1 [2008]
All Journals
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

1. Ageyev, I. M. and G. G. Shishkin, Longitudinal Waves, Moskow, MAI, 2014 (in Russian).

2. Hertz, H., Untersuchungen Uber die Ausbreitung der Elektrischen Kraft, Leipzig, 1894.

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

4. Monstein, C. and J. P. Wesley, "Observation of scalar longitudinal electrodynamic waves," Europhys. Lett., Vol. 59, No. 4, 514-520, 2002.
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, Moskow, MGUL, 2003 (in Russian).

6. Bogdanov, V. P., Ye. I. Nefedov, and A. A. Protopopov, "Analysis of the mutagenic and stimulating effect of longitudinal electromagnetic radiations," Elektrodinamika and Tekhnika, Vol. 8, No. 1-2(27), 37-41, 2000 (in Russian).

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, New York, 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).

Download Full Article (221) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.