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A.E. Serebryannikov


IRA NASU, 4 Krasnoznamennya St., Kharkov 61002 Ukraine

38 Publications

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Articles in Refereed Journals


1. A.E. Serebryannikov, E. Colak, A. Petrov, P.V. Usik and E. Ozbay: Multifrequency spatial filtering: A general property of two-dimensional photonic crystals, Photonics and Nanostructures - Fundamentals and Applications, Vol. 18, pp.1-9 (2016)

2. E. Colak, A.E. Serebryannikov, P.V. Usik and E. Ozbay: Diffraction inspired unidirectional and bidirectional beam splitting in defect-containing photonic structures without interface corrugations, Journal of Applied Physics, Vol. 119, pp.193108.1-9 (2016)

3. A.E. Serebryannikov, E. Ozbay and P.V. Usik: Defect-Mode-Like Transmission and Localization of Light in Photonic Crystals without Defects, Physical Review B., Vol. 82, #16, pp.1-7 (2010)

4. P.V. Usik, A.E. Serebryannikov and E. Ozbay: Spatial and spatial-frequency filtering using one-dimensional graded-index lattices with defects , Optics communications, Vol. 282, #23, pp.4490-4496 (2009)

5. A.E. Serebryannikov, P.V. Usik and E. Ozbay: Non-ideal cloaking based on Fabry-Perot resonances in single-layer high-index dielectric shells, Optics Express, Vol. 17, #19, pp.16869-1687 (2009)

6. A.E. Serebryannikov and A.I. Nosich: TE-Case RCS Analysis of Finite-Thickness Slotted Circular Cylinder Loaded With Lossy Filling, IEEE transactions on antennas and propagation, Vol. 53, #4, pp.1426-1434 (2005)

7. A.E. Serebryannikov, O.E. Vasylchenko and K. Schuenemann: Fast coupled-integral-equations-based analysis of azimuthally corrugated cavities., IEEE Microwave and Wireless Communictions Letters, Vol. 14, pp.240- 242 (2004)

8. K. Schuenemann, A.E. Serebryannikov and O.E. Vasylchenko: Analysis of non-periodic azimuthally corrugated structures by coupled-integral-equations technique., Int. J. Elecron. Commun., Vol. 58, #2, pp.79-85 (2004)

9. K. Schuenemann, A.E. Serebryannikov, S.V. Sosnytskiy and D.M. Vavriv: Optimizing the spatial-harmonic millimeter-wave magnetron., Phys. Plasmas, Vol. 10, #6, pp.2559-2565 (2003)

10. A.E. Serebryannikov: Mode mixing in an almost periodic azimuthally corrugated cavity., Microwave and Opt. Tech. Lett., Vol. 37, #6, pp.461-465 (2003)

11. K. Schuenemann and A.E. Serebryannikov: Azimuthally corrugated non-periodic cavity with special eigenfrequency spectrum., Electron. Lett., Vol. 39, #3, pp.296-297 (2003)

12. K. Schuenemann, A.E. Serebryannikov and D.M. Vavriv: Analytical estimates of electromagnetic characteristics of the loaded azimuthally corrugated cavities. , J. of Electromagn. Waves and Appl., Vol. 16, #6, pp.757-770 (2002)

13. A.E. Serebryannikov, A.E. Moiseenko and Yu.A. Tsarin: Modified equivalent impedance approach for azimuthally corrugated lossy structures., Electromagnetics, Vol. 21, pp.199-211 (2001)

14. A.E. Serebryannikov: Mode selection and slow-wave characteristics of groove modes of a magnetron-type cavity., Microwave Opt. Tech. Lett., Vol. 21, #5, pp.368-372 (1999)

15. K. Schuenemann, A.E. Serebryannikov and D.M. Vavriv: Analysis of the complex natural frequency spectrum of the azimuthally periodic coaxial cavity., Microwave Opt. Tech. Lett., Vol. 17, #5, pp.308-313 (1998)

16. A.E. Serebryannikov, A.I. Nosich and D.M. Vavriv: Limiting parameters of groove modes of a magnetron-type cavity., Journ. of Electromagn. Waves Appl., Vol. 12, #9, pp.1203-1216 (1998)

17. D.M. Vavriv and A.E. Serebryannikov: Q-factor computation of the magnetron oscillator systems, Radiotekhni ka I electronika, Vol. 42, #4, pp.472-478 (1997) (in Russian)

18. D.M. Vavriv and A.E. Serebryannikov: Calculation of Q-factor of a magnetron resonator system., Radiotekhnika i Elektronika, Vol. 42, #4, pp.472-478 (1997) (in Russian)

19. A.E. Serebryannikov: Analysis of the complex natural frequency spectrum of the loaded cavity with azimuthal corrugation., Int. J. Infrared and Millimeter Waves, Vol. 18, #5, pp.1037-1052 (1997)

20. L.V. Vavriv and A.E. Serebryannikov: Analysis of propagation of ultra-wide band pulse in the waveguide with local inhomogeneity., Izv. Vuz.-Radioelektronika, Vol. 40, #10, pp.3-14 (1997)

21. L.V. Vavriv and A.E. Serebryannikov: Analysis and synthesis of electromagnetic field in high-power simulators of electrodynamic influence., Tekhnichna Elektrodynamika, #4, pp.21-27 (1996) (in Russian)

22. A.E. Serebryannikov: Limiting parameters of waveform response in the problems of resonant scattering., Izv. vuzov.-Radioelektronika, Vol. 39, #8, pp.47-58 (1996) (in Russian)

23. L.V. Vavriv and A.E. Serebryannikov: Methodological aspects of testing aerospace systems stability under powerful electromagnetic influences., Turk. J. Phys., Vol. 20, #8, pp.984-987 (1996)

24. D.M. Vavriv and A.E. Serebryannikov: The potentials of hybrid model used for analysis of oscillatory systems of millimeter-wave magnetrons. , Int. Journal. of Infrared and Millimeter Waves, Vol. 17 (1996)

25. D.M. Vavriv and A.E. Serebryannikov: On analysis of magnetron oscillatory system., Radiotekhnika i Elektronika, Vol. 40, #1, pp.97-101 (1995) (in Russian)

26. K.V. Avramov and A.E. Serebryannikov: Interpolative-iterative algorithm for numerical modeling of the problems of nonstationary electrodynamics., Izv. vuzov.- Radioelektronika, Vol. 38, #9, pp.3-11 (1995) (in Russian)


Presentations on International Meetings


27. A.E. Serebryannikov, S.V. Sosnytskiy, D.M. Vavriv and K. Schuenemann: A Compromising Design of Cavities for Higher-Space-Harmonic Millimeter-Wave Magnetrons Operating with Non-p Groove Mode, Displays and Vacuum Electronics, Garmisch-Partenkirchen, Germany, May 3-4 (2004)

28. K. Schuenemann, A.E. Serebryannikov, S.V. Sosnytskiy and D.M. Vavriv: Numerically rigorous analysis of the rising-sun magnetron cavity., ICMMT2002, China (2002)

29. K. Schuenemann, A.E. Serebryannikov, S.V. Sosnytskiy and D.M. Vavriv: Optimizing the design of the spatial-harmonic magnetrons., Proc. of the 2nd IEEE Intern. Vacuum Electronics Conference, Noordwijk, the Netherlands (2001)

30. A.E. Serebryannikov: Gaussian beam scattering from a rough surface. Fourier-series-based solution., XXVIth General Assembly of URSI, Toronto, Canada, Abstracts, pp.70 (1999)

31. A.E. Serebryannikov and S.Yu. Puzirkov: Fractal-like model applied to study electromagnetic waves scattering from inhomogeneous medium., Abstracts of the XXVIth General Assembly of URSI, Toronto, Canada. (1999)

32. A.I. Timchenko, A.E. Serebryannikov and K. Schuenemann: Remote sensing of oil slicks on sea with millimeter-wave radar., Proc. of 10th MICROCALL, Budapest, Hungary, pp.137-140 (1999)

33. A.E. Serebryannikov: Generalized method of natural oscillations applied to analysis of azimuthally-corrugated coaxial cavity., The 7th Int. Conf. on Math. Methods in Electromagn. Theory, Kharkov, Ukraine (1998)

34. A.E. Serebryannikov and A.V. Sova: Effect of load on characteristics of a magnetron cavity., The 3rd Kharkov Int. Symp. on Millimeter and Submillimeter Waves MSMW'98, Kharkov, Ukraine, pp.212-214 (1998)

35. A.E. Serebryannikov and D.M. Vavriv: Computer-aided modeling of azimuthally-corrugated coaxial lossy cavities., Proc. of MIOP’97, Sindelfingen, Germany, pp.472-476 (1997)

36. A.E. Serebryannikov: Using equivalent impedance approach to analyze quasiperiodic corrugated waveguides., URSI Meeting, Montreal, Canada (1997)

37. A.E. Serebryannikov and L.V. Vavriv: Trial pulse response: a basis for deve-loping transient analysis of fields and signals., The 6th Int. Conf. on Math. Methods in Electromagn. Theory, Lviv, Ukraine (1996)

38. D.M. Vavriv and A.E. Serebryannikov: Oscillating system for millimeter-wave magnetrons with optimal Q-factor., Proc. of the URSI Radio Science Meeting , USA, Seattle, pp.337 (1994)

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