A polarization rotator is investigated using a layered photonic structure composed of nonlinear media with the Kerr and single negative materials including epsilon-negative media and mu-negative media. Since the zero effective phase (expressed as zero-𝝋 eff ) bandgap formed by the alternating epsilon-negative media and mu-negative media has the characteristics of broadband phase retardation, as well as the nonlinear effect of the defect layer, the reflection phase difference and polarization form can be adjusted by the incident angle and light intensity. Studying the effect of those two parameters on reflectivity, reflection phase difference, and the polarization form under the forward and backward incidence, it is found that different incident directions can coherently tune the polarization form. By adjusting the incident angle and light intensity, the linear polarization can be converted to the left-handed circular polarization in the forward incidence, and it can be converted to the right-handed circular polarization in the backward incidence, thereby obtaining two different forms of circular polarization. Therefore, the different handed circularly polarized waves with relatively wide bandwidths can be obtained by changing the incident direction of electromagnetic waves, which provides the basis for tunable polarization selectors.
In this paper, the bistable phenomenon with the coherent perfect absorption properties are studied through the nonlinear transfer matrix method in one-dimensional nonlinear photonic crystals doped with a defect. The focus is on the influences of the relative phase of coherent light on the bistable coherent absorption intensity, and the tuning of the bistable threshold by parameters such as angle and wavelength of incidence. The simulated results show that the coherent absorption intensity is very sensitive to the relative phase of coherent incidence. As the phase decreases, the absorption intensity also decreases, varying from 1 to -1 when the phase change is within 180°. The tuning of the relative phase to the absorption intensity provides great convenience for the application of bistable, and parameters such as the incident angle can also achieve sensitive tuning of the bistable threshold. The larger the incident angle, the larger the threshold, and the more obvious the bistable phenomenon. The application of nonlinear optical devices has been expanded in the fields of filters, optical switches, optical power threshold devices, etc.
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