光子晶体光纤
双折射
消光比
材料科学
光学
单模光纤
偏振模色散
宽带
波长
色散(光学)
极化(电化学)
光通信
芯(光纤)
超连续谱
光电子学
光纤
物理
化学
物理化学
作者
Amit Halder,Wahiduzzaman Emon,Md. Shamim Anower,Md. Riyad Tanshen,Md. Forkan,Md. Sharif Uddin Shajib
出处
期刊:Optics and Photonics Journal
[Scientific Research Publishing, Inc.]
日期:2023-01-01
卷期号:13 (10): 227-242
被引量:9
标识
DOI:10.4236/opj.2023.1310021
摘要
This paper presents the development of a highly efficient CT-PCF (Core-Tune Photonic Crystal Fiber) with substantial birefringence, tailored for applications in high-bit-rate communication and sensing while minimizing signal loss. The design incorporates a modified broadband dispersion compensating structure, optimized for operation across the E, S, C, and L communication bands within a wavelength range spanning 1360 nm to 1625 nm. Notably, the CT-PCF demonstrates a remarkable birefringence of 2.372 × 10-2 at 1550 nm, surpassing traditional PCF structures. Single-mode performance is evaluated using the Higher Order Mode Extinction Ratio (HOMER) method, revealing a peak HOMER value of 104 at 1550 nm. Furthermore, at 1550 nm, the CT-PCF exhibits exceptional nonlinear characteristics, featuring a high nonlinearity of 50.74 W-1⋅Km-1 for y polarization. In comparison to existing designs, the proposed CT-PCF exhibits superior performance metrics and optical characteristics. Additionally, the y polarization dispersion coefficient of the CT-PCF at 1550 nm is measured at -3534 ps/(nm⋅km). Overall, the CT-PCF represents a significant advancement, outperforming established systems in terms of performance metrics and optical properties.
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