Diffraction from corrugated gratings made with biaxial crystals: Rayleigh methods

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We apply the Rayleigh hypothesis to study the diffraction of electromagnetic waves at corrugated gratings made of biaxial crystals with arbitrary orientations of their optic axes. The method is valid for gratings made of shallow grooves of any shape, with arbitrary orientation of the plane of incide...

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Detalles Bibliográficos
Autor principal: Depine, Ricardo Angel
Otros Autores: Gigli, M.L
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: Elsevier 1996
Acceso en línea:Registro en Scopus
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100 1 |a Depine, Ricardo Angel 
245 1 0 |a Diffraction from corrugated gratings made with biaxial crystals: Rayleigh methods 
260 |b Elsevier  |c 1996 
270 1 0 |m Depine, R.A.; Grupo de Electromagnetismo Aplicado, Departamento de Física, Ciudad Universitaria, Pabellón I, 1428 Buenos Aires, Argentina; email: rdep@dfuba.df.uba.ar 
504 |a Ren, W., (1993) Phys. Rev. E, 47, p. 664 
504 |a Rokushima, K., Yamakita, J., (1983) J. Opt. Soc. Am., 73, p. 901 
504 |a Glytsis, E., Gaylord, T., (1987) J. Opt. Soc. Am. A, 4, p. 2061 
504 |a Glytsis, E., Gaylord, T., (1990) J. Opt. Soc. Am. A, 7, p. 1399 
504 |a Petit, R., Tayeb, G., Application and theory of periodic structures, diffraction gratings and moire phenomena III (1987) Proc. Soc. Photo-Opt. Instrum. Eng., 815, p. 11. , ed. J.M. Lerner 
504 |a Tayeb, G., Cadilhac, M., Petit, R., (1988) C.R. Acad. Sci., 307, p. 711. , (Paris) série II 
504 |a Mori, S., Mukai, K., Yamakita, J., Rokushima, K., (1990) J. Opt. Soc. Am. A, 7, p. 1661 
504 |a Depine, R.A., Brudny, V.L., Lakhtakia, A., (1992) J. Mod. Optics, 39, p. 589 
504 |a Lakhtakia, A., Depine, R.A., Inchaussandague, M.E., Brudny, V.L., (1993) Appl. Optics, 32, p. 2765 
504 |a Depine, R.A., Gigli, M.L., (1994) J. Mod. Optics, 41, p. 695 
504 |a Depine, R.A., Gigli, M.L., (1994) Phys. Rev. B, 49, p. 8437 
504 |a Gigli, M.L., Depine, R.A., (1995) J. Mod. Optics, 42, p. 1281 
504 |a Depine, R.A., Inchaussandague, M.E., (1994) J. Opt. Soc. Am. A, 11, p. 173 
504 |a Inchaussandague, M.E., Depine, R.A., (1995) J. Opt. Soc. Am. A, 12, p. 1261 
504 |a Petit, R., (1980) Electromagnetic Theory of Gratings, , Springer, Heidelberg 
504 |a Chen, H.C., (1983) Theory of Electromagnetic Waves: A Coordinate Free Approach, , Mc Graw-Hill, New York 
504 |a Depine, R.A., Valencia, C.I., (1992) J. Mod. Optics, 39, p. 2089 
504 |a Petit, R., (1981) J. Opt. Soc. Am., 71, p. 593 
504 |a Wirgin, A., (1982) J. Opt. Soc. Am., 72, p. 812 
504 |a Inchaussandague, M., Depine, R., Rigorous vector theory for diffraction from gratings made of biaxial crystals J. Mod. Optics, , to be published 
504 |a Raether, H., (1988) Surface Plasmons on Smooth and Rough Surfaces and on Gratings, , Springer, Heidelberg 
506 |2 openaire  |e Política editorial 
520 3 |a We apply the Rayleigh hypothesis to study the diffraction of electromagnetic waves at corrugated gratings made of biaxial crystals with arbitrary orientations of their optic axes. The method is valid for gratings made of shallow grooves of any shape, with arbitrary orientation of the plane of incidence with respect to the main section of the cylindrical corrugation (conical mounting). We solve the dispersion equation to find the propagation constants and the polarization of the plane waves involved in Rayleigh expansions. These expansions are used to impose Maxwell boundary conditions at the grating interface. This leads to a linear system of equations with the amplitudes of the diffracted fields as unknowns, which is solved numerically. As examples of application of this procedure, we calculate the co-and cross-polarized components in the specularly diffracted order when the periodically corrugated biaxial crystal is illuminated from an isotropic medium by s and p polarized plane waves, and we study the excitation of surface plasmons for incidence from the biaxial crystal onto a metal surface.  |l eng 
536 |a Detalles de la financiación: Umweltbundesamt 
536 |a Detalles de la financiación: Consejo Nacional de Investigaciones Científicas y Técnicas 
536 |a Detalles de la financiación: This work was partially supportedb y grants from Fundacion Antorchas, CONICET and UBA. M.L. Gigli gratefully acknowledges a scholarship from UBA. 
593 |a Grupo de Electromagnetismo Aplicado, Departamento de Física, Ciudad Universitaria, Pabellón I, 1428 Buenos Aires, Argentina 
690 1 0 |a ANISOTROPY 
690 1 0 |a APPROXIMATION THEORY 
690 1 0 |a CRYSTALS 
690 1 0 |a CYLINDERS (SHAPES) 
690 1 0 |a ELECTROMAGNETIC WAVES 
690 1 0 |a RAYLEIGH SCATTERING 
690 1 0 |a BIAXIAL CRYSTALS 
690 1 0 |a CORRUGATED GRATINGS 
690 1 0 |a RAYLEIGH METHODS 
690 1 0 |a DIFFRACTION GRATINGS 
700 1 |a Gigli, M.L. 
773 0 |d Elsevier, 1996  |g v. 130  |h pp. 109-121  |k n. 1-3  |p Opt Commun  |x 00304018  |w (AR-BaUEN)CENRE-276  |t Optics Communications 
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