@article{Thi_2024, title={Dispersion Optimization in GeO2-doped Silica Photonic Crystal Fibers with Circular Lattice}, volume={17}, url={https://oiccpress.com/Majlesi-Journal-of-Electrical-Engineering/article/dispersion-optimization-in-geo2-doped-silica-photonic-crystal-fibers-with-circular-lattice/}, DOI={10.30486/mjee.2023.1977591.1057}, abstractNote={In this paper, we analyze the dispersion properties of photonic crystal fiber with the core replaced by a composite of 85% SiO2-15% GeO2. The air hole’s radii of the layers in the cladding are designed differently to improve the dispersion and nonlinear properties of the fibers. Both anomalous and all-normal dispersions have been optimized. Based on numerical simulation results, two optimal structures (d1/Ʌ = 0.4, Ʌ = 0.9 µm and d1/Ʌ = 0.45 and Ʌ = 1.0 µm) are proposed with a very small dispersion value of 0.298 ps/ nm.km and −0.311 ps/nm.km at the pump wavelength of 1.53 µm and 0.985 µm, respectively. The high nonlinear coefficient, small effective mode area, and very low attenuation of about 10−7 dB/m at the pump wavelength are also favorable conditions for the application of broad-spectrum supercontinuum with low peak power. The proposed fibers can be new supercontinuum sources that effectively replace glass core fibers.}, number={2}, journal={Majlesi Journal of Electrical Engineering}, publisher={OICC Press}, author={Thi, Thuy Nguyen}, year={2024}, month={Feb.}, keywords={Photonic crystal fibers, composite SiO2-GeO2, flat dispersion, small effective mode area, low attenuation.} }