Tunable transmittance using temperature dependence ZnS-based ID photonic crystals
Advances in Smart Communication and Imaging Systems: Select Proceedings of …, 2021•Springer
Temperature-dependent ZnS-based optical properties of ID photonic crystal for TE mode at
a particular angle of incidence with defect mode layer have been investigated. The defect
layer ZnS has been tuned by varying the temperature of the semiconductor material. Here,
the refractive index of the material ZnS is a function of temperature and frequency (or
wavelength), respectively. It is clear that when the temperature of the material increases, the
defective layer displaced towards the shorter frequency range of spectrum. Moreover, when …
a particular angle of incidence with defect mode layer have been investigated. The defect
layer ZnS has been tuned by varying the temperature of the semiconductor material. Here,
the refractive index of the material ZnS is a function of temperature and frequency (or
wavelength), respectively. It is clear that when the temperature of the material increases, the
defective layer displaced towards the shorter frequency range of spectrum. Moreover, when …
Abstract
Temperature-dependent ZnS-based optical properties of ID photonic crystal for TE mode at a particular angle of incidence with defect mode layer have been investigated. The defect layer ZnS has been tuned by varying the temperature of the semiconductor material. Here, the refractive index of the material ZnS is a function of temperature and frequency (or wavelength), respectively. It is clear that when the temperature of the material increases, the defective layer displaced towards the shorter frequency range of spectrum. Moreover, when the temperature increases, the efficiency of the layer also increases up to 96.4%.
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