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A Generalized Mode-Matching Technique in the Theory of Waveguide Mode Diffraction. Part 4: Convergence Rate of the Projection Approximations”
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| dc.contributor.author | Petrusenko, I. V. | |
| dc.contributor.author | Sirenko, Yu. K. | |
| dc.date.accessioned | 2017-05-24T10:02:06Z | |
| dc.date.available | 2017-05-24T10:02:06Z | |
| dc.date.issued | 2017-05-23 | |
| dc.identifier.citation | Petrusenko, I.V. and Sirenko, Yu.K., (2013), Generalized mode-matching technique in the theory of guided wave diffraction. Part 1: Fresnel formulas for scattering operators, Telecommunications and Radio Engineering, 72(5):369-384. 2. Petrusenko, I.V. and Sirenko, Yu.K., (2013), Generalized mode-matching technique in the theory of guided wave diffraction. Part 2: Convergence of projection approximations, Telecommunications and Radio Engineering, 72(6):461-467. 3. Petrusenko, I.V. and Sirenko, Yu.K., (2013), Generalized mode-matching technique in the theory of guided wave diffraction. Part 3: Wave scattering by resonant discontinuities, Telecommunications and Radio Engineering, 72(7):555-567. 4. Trenogin, V.A., (2002), The functional analysis, Fizmatlit, Moscow: 488 p. (in Russian). 5. Petrusenko, I.V. and Sirenko, Yu.K., (2009), Generalization of the power conservation law for scalar mode-diffraction problems, Telecommunications and Radio Engineering, 68(16):1399-1410. 6. Mittra, R. and Lee, S.W., (1971), Analytical techniques in the theory of guided waves, The Macmillan Company, New York, - 327 p. | uk_UA |
| dc.identifier.issn | 0040-2508 Print. 1943-6009 Online | |
| dc.identifier.uri | http://hdl.handle.net/123456789/2397 | |
| dc.description | Petrusenko I. V., Sirenko Yu. K., “A Generalized Mode-Matching Technique in the Theory of Waveguide Mode Diffraction. Part 4: Convergence Rate of the Projection Approximations”, Telecommunications and Radio Engineering, 2015, v.74, No 15, pp. 1317-1325. | uk_UA |
| dc.description.abstract | This part of the study continues presenting fundamentals of the generalized mode-matching technique designed for analyzing the waveguide mode scattering. Specifically, the problem is considered of analytically estimating the rate of convergence of the projection approximations to the operator Fresnel formulas the unconditional convergence of which has been proven earlier. By the way of example of a canonical scalar problem of wave diffraction by a step in a rectangular waveguide the derivation of the approximation error of the wave reflection and transmission operators is presented. It is shown that the formulated problem can be solved through considering the strong P-convergence of the projection representation of the amplitude scattering operator. As a result, an analytical estimate has been first obtained for the rate of convergence of the scattering operator approximations obtained using the truncation method for the operator Fresnel formulas. The found regularities are validated through numerical calculations. The obtained results make it possible to determine the computational efficiency of the generalized mode-matching technique. | uk_UA |
| dc.language.iso | en | uk_UA |
| dc.publisher | Begell House | uk_UA |
| dc.relation.ispartofseries | Telecommunications and Radio Engineering Международный научный журнал по проблемам телекоммуникационной техники и электроники.;2015 / Volume 74, Number 15 | |
| dc.subject | mode-matching technique | uk_UA |
| dc.subject | operator Fresnel formulas | uk_UA |
| dc.subject | rate of approximation convergence | uk_UA |
| dc.title | A Generalized Mode-Matching Technique in the Theory of Waveguide Mode Diffraction. Part 4: Convergence Rate of the Projection Approximations” | uk_UA |
| dc.type | Article | uk_UA |
