研究目的
Investigating the optical properties of graphene oxide in the mid-infrared region and demonstrating its application in high-performance MIR polarizers.
研究成果
The development of the model-free transmittance-based KK method in characterizing ultrathin GO films opens up a promising approach to access the optical properties of novel low-dimensional materials with atomic-scale thicknesses. The free-standing MIR GO polarizers with controllable working wavelengths, large extinction ratio, and low-cost manufacturing offer great potential for various photonic applications in the MIR regime.
研究不足
The extracted index at two spectrum edges (0.2 μm and 25 μm) cannot be validated due to the truncated spectrum used in the KK method. The performance of GO polarizers deteriorates for larger periodicities due to less overlapping between guided-mode resonance and waveguide mode resonance.
1:Experimental Design and Method Selection:
Utilized a transmittance-based Kramers-Kronig method to characterize the optical properties of graphene oxide from visible to MIR region.
2:Sample Selection and Data Sources:
Prepared a 30 nm thick free-standing graphene oxide film for measurements.
3:List of Experimental Equipment and Materials:
Used a homemade direct laser writing system for fabricating free-standing GO polarizers, a 3D optical profiler for surface morphology characterization, and FDTD simulation for performance study.
4:Experimental Procedures and Operational Workflow:
Measured transmission spectra using UV/Vis Spectrophotometer and FTIR spectrometer, and performed FDTD simulations to validate the dispersion relations.
5:Data Analysis Methods:
Developed a computer-assisted curve fitting program to calculate refractive index and extinction coefficient from transmission spectra and phase shift.
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