Abstract:
An exact differential algorithm is developed, using a conformal transformation for the half-space outside the grating and a non-conformal transformation that coincides with the former for the interior of the metal. As an example, the theory is applied to the E ll mode for a cycloidal profile. © 1983 Taylor & Francis Group, LLC.
Referencias:
- Cerrutti-Maori, G., Petit, R., Cadilhac, M., (1969) C. R. Hebd. Seanc. Acad. Sci., Pari B, 268, p. 1060
- Neviere, M., Vincent, P., Petit, R., (1974) Nouv. Revue. Op., 5, p. 65
- Neviere, M., Cadilhac, M., Petit, R., (1973) I.E.E.E. Tran. an Enna Propag., 21, p. 37
- Depine, R.A., Simon, J.M., (1982) Op Ica Ac A, 29, p. 1459
- Neviere, M., Cadilhac, M., (1970) Op Ic. Commun., 2, p. 235
- Neviere, M., Cerrutti-Maori, G., Cadilhac, M., (1971) Op Ic. Commun., 3, p. 48
- Hass, G., (1965) Applied Optic and Optical Engineering, 3, p. 309. , edited by R. King lake (New York: Academic Pre
- Chandezon, J., Dupui, M.T., Cornet, G., Maystre, D., (1982) J. Op. Soc. Am., 72, p. 839
Citas:
---------- APA ----------
Depine, R.A. & Simon, J.M.
(1983)
. Diffraction grating efficiencies an exact differential algorithm valid for high conductivities. Optica Acta, 30(9), 1273-1286.
http://dx.doi.org/10.1080/713821350---------- CHICAGO ----------
Depine, R.A., Simon, J.M.
"Diffraction grating efficiencies an exact differential algorithm valid for high conductivities"
. Optica Acta 30, no. 9
(1983) : 1273-1286.
http://dx.doi.org/10.1080/713821350---------- MLA ----------
Depine, R.A., Simon, J.M.
"Diffraction grating efficiencies an exact differential algorithm valid for high conductivities"
. Optica Acta, vol. 30, no. 9, 1983, pp. 1273-1286.
http://dx.doi.org/10.1080/713821350---------- VANCOUVER ----------
Depine, R.A., Simon, J.M. Diffraction grating efficiencies an exact differential algorithm valid for high conductivities. Opt. Acta. 1983;30(9):1273-1286.
http://dx.doi.org/10.1080/713821350