An ultra-flattened chromatic dispersion in circular C6H6-infiltrated photonic crystal fibers

Science & Technology Development Journal Pub Date : 1900-01-01 DOI:10.32508/stdj.v26i2.4074

NguyenThiThuy, H. Trong, Duc

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Abstract

Introduction : In this study, we report a new design of a circular lattice photonic crystal fiber and investigate its optical properties numerically. Methods : Near-zero ultra-flattened chromatic dispersion is achieved by allowing benzene (C 6 H 6 ) to infiltrate the hollow core and induce a difference in the air hole size in the cladding. By solving Maxwell's wave equations using the full-vector finite-difference eigenmode, the electromagnetic field modes are analyzed. Results : The results show that the variation in dispersion over the broad wavelength range of 527 nm is (cid:6) 0.753 ps/nm.km. The nonlinearity coefficient is significantly improved with a value of several thousands W (cid:0) 1 .km (cid:0) 1 ; which is favorable for supercontinuum generation with low input power even though the confinement loss has not yet reached its desired value. Conclusion : Two PCFs with optimal lattice parameters and suitable characteristic quantities are selected for supercontinuum generation orientation compatible with application fields such as spectroscopy, temperature sensing, and telecommunication.

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圆形c6h6浸润光子晶体光纤中的超平坦色散

在本研究中，我们报道了一种新的圆形晶格光子晶体光纤的设计，并对其光学特性进行了数值研究。方法:通过允许苯(c6h6)渗入空心芯并诱导包层中气孔尺寸的差异，实现接近零的超扁平色色散。利用全矢量有限差分特征模解麦克斯韦波方程，分析了电磁场的模态。结果:在527 nm宽波长范围内，色散变化为(cid:6) 0.753 ps/nm.km。非线性系数显著提高，为几千W (cid:0) 1 .km (cid:0) 1;这有利于低输入功率的超连续统发电，即使约束损耗尚未达到理想值。结论:选择了两种具有最优晶格参数和合适特征量的PCFs作为超连续谱生成取向，适合光谱、温度传感和电信等应用领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science & Technology Development Journal

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