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Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Печать: 0040-2508
ISSN Онлайн: 1943-6009

Выпуски:
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Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v71.i15.80
pages 1411-1422

PLANAR STRUCTURES OF WAVEGUIDING CIRCUITRY FOR MILLIMETER BAND

S.L. Skripka
Taras Shevchenko National University of Kiev 2, Glushkov Ave., Kiev, 03022, Ukraine
V. V. Danilov
Donetsk National University 24 Universitetskaya St., 83055 Donetsk, Ukraine ;Taras Shevchenko National University of Kiev 2, Glushkov Ave., Kiev, 03022, Ukraine
I.S. Pavlovsky
Taras Shevchenko National University of Kiev 2, Glushkov Ave., Kiev, 03022, Ukraine

Краткое описание

This paper reports the results of the numerical and experimental research on wave processes in an open doubly connected planar waveguide. The authors suggest a procedure for experimental measuring of the phase velocity of higher modes in a planar waveguide. According to the results obtained in course of the experiments and numerical simulation, planar waveguides are characterized by a low loss, a low dispersion in the quasi-TEM-mode and a high level of integration, all this making them a powerful tool for engineering short waveguides and integrated circuits in the millimeter wave band. The applicability of planar waveguides in filters and modulators in mm band is also considered in this paper.

ЛИТЕРАТУРА

  1. Yoon, K.B., Cha, I.K., and Ahn, S.H., Optical backplane systems using waveguide-embedded PSBs and optical slots.

  2. Skripka, S.L. and Danilov, V.V. , Electrodynamics of wave processes into two-connected planar wave guide structures.

  3. Yee, K.S., Numerical solutions of initial boundary value problems involving Maxwell's equation in isotropic media.

  4. Berenger, J.P., A perfectly matched layer for the absorption of electromagnetic waves.

  5. Beggs, J.H. and Yee, K.S., Finite-Difference Time-Domain Implementation of Surface Impedance Boundary Conditions.

  6. Luebbers, R.A., Frequency-depended finite-difference time-domain formulation for dispersive materials.

  7. Shimizu, J.K., Coupled-Transmission-Line Directional Couplers.

  8. Paolino, D., Design more accurate interdigitated couplers.

  9. Young, L., The analytical equivalence of TEM-mode directional couplers and transmission-line steeped-impedance filters.

  10. Skripka, S.L., Planar photonic structures in microwave range.


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