PIER
 
Progress In Electromagnetics Research
ISSN: 1070-4698, E-ISSN: 1559-8985
Home | Search | Notification | Authors | Submission | PIERS Home | EM Academy
Home > Vol. 69 > pp. 177-200

EIGENWAVE CHARACTERISTICS OF A PERIODIC IRIS-LOADED CIRCULAR WAVEGUIDE. THE CONCEPTS

By S. K. Katenev

Full Article PDF (1,393 KB)

Abstract:
The eigenwave dispersion (its initial periodicity-dispersion component) and the H0i-wave power flows (via the partial wave concept proven) are examined in a periodic iris-loaded circular waveguide (PICW). The eigen-values and modes are classified; arbitrariness of a Bragg wave-point location, the eigenwave interpretation, the contradirectional power flows, the asymmetric wave hybridity, and etc., are found and/or explained. All of the results are valid to the class of periodic-boundary structures (PBS).

Citation:
S. K. Katenev, "Eigenwave Characteristics of a Periodic Iris-Loaded Circular Waveguide. the Concepts," Progress In Electromagnetics Research, Vol. 69, 177-200, 2007.
doi:10.2528/PIER06120501
http://www.jpier.org/PIER/pier.php?paper=06120501

References:
1. Chu, E. L. and W. W. Hansen, "The theory of disk-loaded wave guides," Journal of Applied Physics, Vol. 18, 996-1008, 1947.
doi:10.1063/1.1697586

2. Vladimirsky, V. V., "The propagation of radiowaves along the chain of endovibrators," Zhurnal Tekhnicheskoy Phyzyki, Vol. 17, 1269-1277, 1947.

3. Walkinshaw, W., "Wave guides for slow waves," Journal of Applied Physics, Vol. 20, 634-635, 1948.
doi:10.1063/1.1698447

4. Akhiezer, A. I. and J. B. Feinberg, "Slow electromagnetic waves," Uspekhy Physicheskikh Nauk, Vol. 44, 321-364, 1951.

5. Neal, R. B., "Design of linear electron accelerators with beam loading," Journal of Applied Physics, Vol. 29, 1019-1024, 1958.
doi:10.1063/1.1723355

6. Combe, R. and M. Feix, "Resultats theoretiques et experimentaux councernant les guides d'ondes charges et les pertiellment coaxiales," Nuovo Cimento, Vol. 15, 760-773, 1960.

7. Valdner, O.A. and A. V. Shalnov, Electromagnetic Fields in the Iris-Loaded Waveguides of the Electron Linear Accelerators, Gosenergoizdat, Moscow, 1963.

8. Saxon, G., T.R. Jarvis, and I. White, Angular dependent mode in circular corrugated waveguide, Proc. IEEE, Vol. 51, 1365-1373, 1963.

9. Nishikava, T., S. Giordano, and D. Carter, "Dispersion relation and frequency characteristics of alternating periodic structure for linear accelerators," Rev. Sci. Instrum., Vol. 37, 652-660, 1966.
doi:10.1063/1.1720274

10. Burshtein, E. A. and G. B. Voskresensky, The Intensive Beam Electron Linear Accelerators, Atomizdat, Moscow, 1970.

11. Hahn, H., Ch. I. Goldshtein, and W. Bauer, "On the theory of iris-loaded waveguides," AEV, Vol. 30, 297-302, 1976.

12. Valdner, O.A., N. P . Sobenin, B. V. Zverev, and I. S. Schedrin, The Guide to the Iris-loaded Waveguides, O.A.Valdner (ed.), Atomizdat, Moscow, 1977.

13. Bruice, L., "Ten-times increase of TWT power," Electronika, Vol. 54, 12-13, 1981.

14. Kovalev, N. F., M. I. Petelin, M. D. Reizer, and A. V. Smorgonsky, 'O'-type devices based on the induced Cherenkov's and the transitional radiation of the relativistic electrons, 76-113, Relativistic Microwave Electronics, Publ. of the Institute of Applied Physics of Acad.of Sci. of the USSR., , Gorkiy, 1979.

15. Galuzo, S.U., "Dispersion properties investigation in theelectrodynamic system of the relativistic Cherenkov's generator," Radiotekhnika i Electronika, Vol. 27, 559-63, 1982.

16. Vanke, V.A., et al., "The non-linear analysis in the TWT with transverse interaction and synchronized wave," Radiotekhnika i Electronika, Vol. 21, 149-158, 1976.

17. Clarricoats, P. I. B. and G. T. Poulton, High-efficiency microwave reflector antennas, A. Review. Proc. IEEE, Vol. 65, 1470-1504, 1977.

18. Clarricoats, P.I.B., Feeds for reflector antennas. A. Review, Proceedings of Second Intern. Conference on Antennas and Propag., Part I: Antennas, 309-317, University of York, London, 1981.

19. Clarricoats, P. I. B., A. D. Olver, C. G. Parini, and G. T. Poulton, "Corrugated waveguide feeders for microwave antennas," Advanced Antenna Technology, 240-244, 1981.

20. Elachi, C., Waves in active and passive periodic structures, Proc. IEEE, Vol. 64, 1666-1698, 1976.

21. Toyama, H. and K. Yasumoto, "Electromagnetic scattering from periodic arrays of composite circular cylindrer with internal cylindrical scatterers," Progress In Electromagnetics Research, Vol. 52, 321-333, 2005.
doi:10.2528/PIER04100101

22. Aissaoui, M., J. Zaghdoudi, M. Kanzari, and B. Rezig, "Optical properties of the quasi-periodic one-dimensional genarilized multilayer Fibonacci structures," Progress In Electromagnetics Research, Vol. 59, 69-83, 2006.
doi:10.2528/PIER05091701

23. Khala j-Amirhosseini, M., "Scattering of inhomogeneous two dimensional periodic dielectric gratings," Progress In Electromagnetics Research, Vol. 60, 165-177, 2006.
doi:10.2528/PIER05112601

24. Watanabe, K. and K. Kuto, "Numerical analysis of optical waveguides based on periodic Fourier transform," Progress In Electromagnetics Research, Vol. 64, 1-21, 2006.
doi:10.2528/PIER06060802

25. Melezhik, P. N., A. Y. Poyedinchuk, N. P .Yashina, G. Granet, and M. Ney, "Radiation from surface with periodic boundary of metamaterials excited by a current," Progress In Electromagnetics Research, Vol. 65, 1-14, 2006.
doi:10.2528/PIER06072504

26. Garault, Y., "Etude d’une classe d’ondes electromagnetique guid´ees: les onde EH. Application aux deflectuers haute frequence de particules rapides," Annales de Physiques, Vol. 10, 641-672, 1965.

27. Katenev, S. K., Electromagnetics of simplest H-eigenwaves inperiodic iris-loaded circular waveguide, U.R.S.I. International Symposium Mathematical Methods in Electromagnetic Theory-94 Conference Proceedings, 164-167.

28. Katenev, S. K., Electromagnetics of H-eigenwaves in periodic iris-loaded circular waveguide, Proceedings of the U.R.S.I. International Symposium on Electromagnetic, 38-40.

29. Collin, R. E., Field Theory of Guided Waves, 851, 2nd ed., IEEE Press, 1990.

30. Whitham, J. B., Linear and Nonlinear Waves, John Wiley & Sons, 1974.

31. Katenev, S. K., "Waves in periodic layered waveguides," International Journal of Infrared and Millimeter Waves, Vol. 16, 1825-1835, 1995.
doi:10.1007/BF02068692

32. Tretyakov, O. A., Waveguide evolutionary equations, Vol. 34, 917-926, Radiotekhnika i Electronika, 1989.

33. Tretyakov, O. A., Essentials of nonstationary and nonlinear electromagnetic field theory, 123-145, Analytical and Numerical Methods in Electromagnetic Wave Theory, Science House, Tokio, 1993.

34. Pierce, G.R. and P. K. Tien, Coupling of modes in helices, Proc. IRE., Vol. 37, 1389-1396, 1954.

35. Pierce, G. R., "Coupling of modes of propagation," Journal of Applied Physics, Vol. 25, 179-183, 1954.
doi:10.1063/1.1721599

36. Yeh, P., A. Yariv, and C.-S. Hong, "Electromagnetic propagation in periodic stratified media," Journal of Optical Society of America, Vol. 67, 423-448, 1977.

37. Yariv, A. and A. Grover, "Equivalence of the coupled mode and Floquet-Bloch formulation in periodic optical waveguides," Applied Physics Letters, Vol. 26, 537-539, 1975.
doi:10.1063/1.88247

38. Yariv, A. and P. Yeh, Optical waves in crystals, John Wiley & Sons, 1984.


© Copyright 2014 EMW Publishing. All Rights Reserved