Abstract
Using the Hamiltonian method that we have recently proposed [1, 2] and which is described in the IEEE transactions on antennas and propagation [3], we give some theoretical data related to perfectly conductor wire gratings. Phase-shift and efficiency are given for several diffraction orders, for four shapes of cross-section, and for both fundamental cases of polarization.
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R. Petit, J.Y. Suratteau, M. Cadilhac, SPIE Proceeding, San Diego (1984)
J.Y. Suratteau, R. Petit, M. Cadilhac, Proceeding of the ninth colloquium on infrared and millimeter waves, Takarazuka (1984)
J.Y. Suratteau, R. Petit, M. Cadilhac, IEEE Transactions on Antennas and Propagation, to be published (April 1985)
R. Petit, in “Electromagnetic Theory of Gratings”, Topics in Current Physics, vol. 22, chapter 1, R. Petit (Editor), Springer, Heidelberg (1980)
H.M. Pickett, J. Farhoomand, A.E. Chiou, Applied Optics, 23, 4228 (1984).
J.A. Beunen, A.E. Costley, G.F. Neill, C.L. Mok, T.J. Parker, G. Tait, J. Opt. Soc. Am., 71, 184 (1981)
D. Maystre, in “Electromagnetic Theory of Gratings”, Topics in Current Physics, vol. 22, chapter 3, R. Petit (Editor), Springer, Heidelberg (1980).
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Suratteau, J.Y., Petit, R. Numerical study of perfectly conducting wire gratings in the resonance domain. Int J Infrared Milli Waves 6, 831–865 (1985). https://doi.org/10.1007/BF01013293
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DOI: https://doi.org/10.1007/BF01013293