TELECOMMUNICATIONS AND RADIO ENGINEERING - 2011 Vol. 70,
No 8 		 

 

 

 

MODE INTERACTION IN SURFACE WAVE RESONATOR WITH ELECTRON FLOW



K.A. Lukin & E.M. Khutoryan
A. Usikov Institute of Radio Physics and Electronics,
National Academy of Sciences of Ukraine
12, Academician Proskura St., Kharkiv 61085, Ukraine
Address all correspondence to K.A. Lukin E-mail: LNDES@ire.kharkov.ua

Abstract
An electron flow-excited surface-wave resonator is discussed. The resonator in question is an electrodynamic structure of a resonance backward-wave tube (BWT) and a clinotron. The electron-resonator field interaction in the mode competition is examined.
KEY WORDS: resonance BWT, clinotron, electron flow, mode interaction

References

  1. Levin, G.Ya., Borodkin, A.I., and Kirichenko, A.Ya., (1992), Clinotron, Naukova Dumka,
    Kiev: 200 p. (in Russian).
  2. Lysenko, Ye.Ye., Pishko, O.F., Chumak, V.G., and Churilova, S.A., (2008), Tendencies of mm-wave clinotron development, Radiofizika and Elektronika. 13(sp. issue):315-320 (in Russian).
  3. Pishko, O.F., (2004), Simulation of interaction space in clinotrons, Uspekhi sovremen. radioelektroniki. 1:10-19 (in Russian).
  4. Vavriv, D.M., (2008), Theory of the clinotron, Telecommunications and Radio Engineering. 67(9):757-781.
  5. Lysenko, Ye.Ye., Pishko, O.F., Chumak, V.G., and Churilova, S.A., (2001), Q-factor of the
    mm-wave clinotron resonant line, Radiofizika and Radioastronomiya. 6(4):317-322 (in Russian).
  6. Pishko, O.F., Chumak, V.G., and Churilova, S.A., (2007), Electrodynamic characteristics of the clinotron output device, Radiofizika and Elektronika. 12(sp. issue):130-133 (in Russian).
  7. Weinstein, L.A., (1968), General theory of electronic self-excited oscillators, Elektronika bolshikh moshnostey. 6:84-129 (in Russian).
  8. Ginsburg, N.S., Kovalev, N.F., and Petelin, M.I., (1987), Competition and cooperation of modes in electronic MW oscillators with spatially developed electrodynamic systems, in: Oscillators and amplifiers on relativistic electron flows, Izd-vo MGU, Moscow: 142-153 (in Russian).
  9. Zapevalov, V.Ye. and Nusinovich, G.S., (1984), Establishing oscillations in a two-mode gyrotron, Izv. VUZov. Radiofizika. 7(11):117-120 (in Russian).
  10. Lutgert, S., (1992), Mode competition in orotron, Int. J. Infrared and Millimeter waves. 13(1):71-90.
  11. Nusinivich, G.S. and Bliokh, Yu.P., (2000), Mode interaction in backward-wave oscillators with strong end reflections, Phis. of Plasma. 7(4):1294-1301.
  12. Trubetskov, D.I., Rempen, I.S., Ryskin, N.M., et al., (2003), Control of complicated oscillations in distributed MW-electronic systems, Radiotekhnika. 2:24-34 (in Russian).
  13. Lukin, K.A., Khutoryan, E.M., and Tsvyk, A.I., (2008), Multimode oscillations in diffraction radiation oscillator, Radiofizika and Elektronika. 13(3):535-545 (in Russian).
  14. Silin, R.A. and Sazonov, V.P., (1966), Slow-wave structures, Sov. Radio, Moscow: 632 p. (in Russian).
  15. Lopukhin, V.M., (1953), Excitation of electromagnetic fields using electron flows, Gostekhizdat, Moscow: 324 p. (in Russian).
  16. Lukin, K.A., (1979), The nonlinear of diffraction radiation oscillator, Avtoreferat kand. dis., Kharkov: 19 p. (in Russian).
  17. Weinstein, L.A. and Socntsev, V.A., (1973), Lectures on superhigh-frequency electronics, Sov. Radio, Moscow: 400 p. (in Russian).
  18. Lukin, K.A. and Yakubenko, (1988), Theory of nonstationary processes in diffraction radiation oscillators in a dramatic variation of field characteristics during the lifetime of electrons, Radiotekhnika and Elektronika. 33(4):830-837 (in Russian).
  19. Ginsburg, N.S., Kuznetsov, S.P., and Fedoseeva, T.N., (1978), Theory of transient processes in a relativistic BWT, Izv. VUZov. Radiofizika. 21(7):1037-1052 (in Russian).
  20. Lukin, K.A., (1979), On some aspects the linear theory of O-type resonant self-excited prolonged-interaction oscillators, Preprint. 129:1-42 (in Russian).
  21. Mil’cho, M.V., Yefimov, B.P., Zavertanniy, V.V., and Goncharov, V.V., (2006), Peculiar properties of operating clinotron-type oscillators, Telecommunication and Radio Engineering. 65(8):719-730.
  22. Rakityanskiy, V.A. and Lukin, K.A., (1995), Excitation of the chaotic oscillations in millimeter BWO, Int. J. Infrared and Millimeter Waves. 16(6):1037-1050.
  23. Efimov, B.P., Lukin, K.A., and Rakityanskiy, V.A., (1988), Transformation of chaotic oscillation spectrum by reflection, J. Tech. Phys. 58(12):2398-2400 (in Russian).
  24. Yevdokimenko, Yu.I., Lukin, K.A., Revin, I.O. et al., (1982), On a new mechanism of free-electron DRO excitation, Doklady AN SSSR. 265(2):319-321 (in Russian).
  25. Yevdokimenko, Yu.I., Lukin, K.A., Revin, I.O. et al., (1983), On one specific feature of converting energy in diffraction radiation oscillators – free electron lasers, Doklady AN SSSR. 268(4):853-856 (in Russian).
  26. Yevdokimenko, Yu.I., Lukin, K.A., and Shestopalov, V.P., (1984), On the electromagnetic wave amplification through the use of an electron flow in negative detuning of velocities, J. Tech. Phys. 54(12):2359-2362 (in Russian).


pages 713-729

Back