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PIER PIER B PIER C PIER M PIER Letters
A Scheme to Analyze Scattering from Flat Metallic Periodic Structures Using the Conjugate-Gradient and the Fast Fourier Transform Method
By
Felipe Catedra,

    Dr. Felipe Catedra

    Departamento de Ciencias de la Computación

    Universidad de Alcalá

    Spain

    Homepage

Rafael P. Torres

    Dr. Rafael P. Torres

    Dept Ingn & Comunicac

    Univ Cantabria

    Spain

    Homepage

, Vol. 04, 315-343, 1991
doi:10.2528/PIER89072100
Abstract
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Citation
Felipe Catedra, and Rafael P. Torres, "A Scheme to Analyze Scattering from Flat Metallic Periodic Structures Using the Conjugate-Gradient and the Fast Fourier Transform Method," , Vol. 04, 315-343, 1991.
doi:10.2528/PIER89072100
References

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doi:10.1080/02726348508908152

2. Rubin, B. J. and H. L. Bertoni, "Reflection from a periodically perforated plane using a subsectional current approximation," IEEE Trans. Antennas Propagat., Vol. 31, 829-836, 1983.
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3. Cwik, T. A. and R. Mittra, "Scattering from a periodic array of free-standing arbitrarily shaped perfectly conducting or resistive patches," IEEE Trans. Antennas Propagat., Vol. 35, 1226-1234, 1987.
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4. Catedra, M. F., R. P. Torres, and J. G. Cuevas, "A method to analyze scattering from general periodic screens using Fast Fourier Transform and Conjugate Gradient Method," NATO Advanced Study Institute on Electromagnetic Modeling and Measurements for Analysis and for Synthesis Problems, II Ciocco, Italy, August, 1987 (to appear in proceedings published by Sijthoff & Noordhoff, The Netherlands).

5. Catedra, M. F. and R. P. Torres, "A new Conjugate Gradient-Fast Fourier Transform (CG-FFT) scheme for analysis and design of flat metallic periodic structures," IEEE AP-S International Symposium, 99-102, Syracuse, NY, 1988.

6. Sarkar, T. K. and S. M. Rao, "The application of the Conjugate Gradient Method for the solution of electromagnetic scattering from arbitrasily oriented wire antennas," IEEE Trans. Antennas Propagat., Vol. 32, 398-403, 1984.
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7. Peterson, A. F., "An analysis of the spectral iterative technique for electromagnetic scattering from individual and periodic structures," Efectromagnetics, Vol. 6, 255-276, 1986.
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8. Glisson, A. W. and D. R. Wilton, "Simple and efficient numerical methods for problem of electromagnetic radiation and scattering from surfaces," IEEE Trans. Antennas Propagat., Vol. 28, 593-603, 1980.
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9. Pearson, L. W., "A technique for organizing large moment calculations for use with iterative solutions method," IEEE Trans. Antennas Pmpgat., Vol. 33, 1031-1033, 1985.
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10. Popovic, B. D., M. B. Dragovic, and A. R. Djordjevic, Analysis and Synthesis of Wire Antennas, Research Studies Press, 1982.

11. Elliot, D. F. and K. R. Rao, Fast Tkansforrns, Algorithms, Analysis Applications, Academic Press, 1982.

12. Bracewell, R. N., The Fourier Transforrn and Its Applications, 2nd Ed., McGraw-Hill, 1978.

13. Catedra, M. F., J. G. Cuevas, and L. Nuiio, "A scheme to analyze conduct or plates of resonant size using the Conjugate- Gradient Method and the Fast Fourier Transform," IEEE Trans. Antennas Propagat., Vol. 36, No. 12, 1744-1752, December 1988.
doi:10.1109/8.14396

14. Press, W. H., B. P. Flannery, S. A. Teakolsky, and W. T. Vetterling, Numerical Recipes, The Art of Scientific Computing, Cambridge University Press, 1986.

15. Chan, C. H. and R. Mittra, "Convergence studies of conjugate gradient method applied to frequency selective surface problems using subdomain basis functions," 1987 IEEE A P-S International Symposium Digest, 87-89, Blacksburg, 1987.

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doi:10.1109/TAP.1970.1139760

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