Progress In Electromagnetics Research
ISSN: 1070-4698, E-ISSN: 1559-8985
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By S. K. Katenev

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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).

S. K. Katenev, "Eigenwave Characteristics of a Periodic Iris-Loaded Circular Waveguide. the Concepts," Progress In Electromagnetics Research, Vol. 69, 177-200, 2007.

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

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.

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.

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.

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.

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.

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

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.

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.

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.

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.

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.

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

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