Anisotropic Photonic Crystals and Microcavities Based on Mesoporous Silicon

“…The spectra show a microcavity mode for both polarizations. For s-polarized wave we obtained a microcavity mode at wavelength λ mc = 827 nm in good agreement with the corresponding experimental spectrum shown in [21] for which λ mc = 830 nm. As in the experimental spectra a change in λ mc position is observed when the polarization of the incident light is switched.…”

“…The ordinary n 0 and extraordinary n e refractive indices of the alternating layers are n 01 = 1.39, n 02 = 1.58 and n e1 = 1.32, n e2 = 1.50. According to [21] the wavelength λ 0 = 850 nm and the anisotropy of the refractive indices was found at wavelength λ = 800 nm.…”

“…A Fabry-Perot microcavity structure [21] was analyzed as a simple example of anisotropic layered system. The layers material of this structure consist of anisotropic mesoporous silicon exhibiting optical birefringence given by an artificial in-plane uniaxial symmetry [22].…”

Sturm-Liouville Matrix Equation for the Study of Electromagnetic-Waves Propagation in Layered Anisotropic Media

“…The spectra show a microcavity mode for both polarizations. For s-polarized wave we obtained a microcavity mode at wavelength λ mc = 827 nm in good agreement with the corresponding experimental spectrum shown in [21] for which λ mc = 830 nm. As in the experimental spectra a change in λ mc position is observed when the polarization of the incident light is switched.…”

“…The ordinary n 0 and extraordinary n e refractive indices of the alternating layers are n 01 = 1.39, n 02 = 1.58 and n e1 = 1.32, n e2 = 1.50. According to [21] the wavelength λ 0 = 850 nm and the anisotropy of the refractive indices was found at wavelength λ = 800 nm.…”

“…A Fabry-Perot microcavity structure [21] was analyzed as a simple example of anisotropic layered system. The layers material of this structure consist of anisotropic mesoporous silicon exhibiting optical birefringence given by an artificial in-plane uniaxial symmetry [22].…”

Sturm-Liouville Matrix Equation for the Study of Electromagnetic-Waves Propagation in Layered Anisotropic Media

“…As was demonstrated in [3], PS layers, with dimension of the pore about 10-30 nm, have properties of the negative uniaxial crystal whose birefringence magnitude is up to 0.24. Thus, investigation of the birefringence's influence on the PS's optical properties is requisite for the correct modelling of silicon-based optoelectronic devices.…”

Polarization Conversion in Inhomogeneous Anisotropic Multilayer Structures

“…There has been considerable recent interest in the applications of various types of porous silicon in opto electronics, sensorics, and medicine in which porous silicon is a promising material for marker and drug delivery and similar applications [1][2][3][4][5]. A relatively wide range of the functional characteristics of porous silicon (visible luminescence, relatively high absorp tivity and reactivity, biocompatibility, and different sizes and morphology of pores) stimulates the study of the corresponding objects.…”

Variations of the optical characteristics of nano-, meso-, and macroporous silicon with time