Filtres optiques à couplage de modes polarisés

Abstract: Nous décrivons le principe de fonctionnement de filtres optiques fonctionnant par transfert d'énergie entre deux modes électromagnétiques couplés polarisés à angle droit. Nous montrons que ce phénomène existe non seulement dans des matériaux à structure Wurtzite mais aussi dans des matériaux à structure zinc-blende. Ceci démontre que le couplage n'est pas spécifique à une classe cristalline et étend le domaine potentiel d'applications de l'ultra-violet, ∼ 1 000 Å, au proche infrarouge. Les matériaux à structur… Show more

“…Therefore, in the λ o neighborhood, limited by the spectral interval with a sharp change of the Y parameter, the notion of ordinary and extraordinary modes loses its meaning, it being valid only outside this interval. The analysis of the oscillation polarization with n + and n − going away from the IP leads to the same conclusion [9,10].…”

“…The value of Y sharply changes when passing through the IP. Y changes from 0 to 10 3 when Δn = n e − n o changes from 0 to 10 − 3 with ε yz = 10 − 6 [10]. The value of Y is rather big far from λ o , but it changes not essentially with changing λ.…”

“…The phase matching of the ordinary and extraordinary rays occurs at a definite wavelength. The energy transfer from one mode to another one which is orthogonally polarized can be produced provided that the phase matching condition is satisfied in a crystal [10]. It is supposed that there is a linkage element between the modes.…”

“…A big amount of crystals that possess the isotropic wavelength have been revealed and studied up to date [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. The platelets of AgGaS 2 with λ o wavelength of the optical isotropy ("null wavelength" plates) were used for manufacturing Lyot filters and Solc filters [1,2].…”

“…The difference between the optical isotropy wavelength λ o and the fundamental absorption edge in semiconductors with chalcopyrite structure is bigger as compared to wurtzite semiconductors [8][9][10][11][12][13].…”

Birefringence of CuGa2S4 crystals

“…Therefore, in the λ o neighborhood, limited by the spectral interval with a sharp change of the Y parameter, the notion of ordinary and extraordinary modes loses its meaning, it being valid only outside this interval. The analysis of the oscillation polarization with n + and n − going away from the IP leads to the same conclusion [9,10].…”

“…The value of Y sharply changes when passing through the IP. Y changes from 0 to 10 3 when Δn = n e − n o changes from 0 to 10 − 3 with ε yz = 10 − 6 [10]. The value of Y is rather big far from λ o , but it changes not essentially with changing λ.…”

“…The phase matching of the ordinary and extraordinary rays occurs at a definite wavelength. The energy transfer from one mode to another one which is orthogonally polarized can be produced provided that the phase matching condition is satisfied in a crystal [10]. It is supposed that there is a linkage element between the modes.…”

“…A big amount of crystals that possess the isotropic wavelength have been revealed and studied up to date [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. The platelets of AgGaS 2 with λ o wavelength of the optical isotropy ("null wavelength" plates) were used for manufacturing Lyot filters and Solc filters [1,2].…”

“…The difference between the optical isotropy wavelength λ o and the fundamental absorption edge in semiconductors with chalcopyrite structure is bigger as compared to wurtzite semiconductors [8][9][10][11][12][13].…”

Birefringence of CuGa2S4 crystals

Recent Developments in Monochromatic Birefringent Filters

Macroscopic analysis of electromagnetic waves coupling in CdS