基于对称双环嵌套管的低损耗弱耦合六模空芯负曲率光纤  被引量：1

作　　者：惠战强 刘瑞华 高黎明 韩冬冬 李田甜 巩稼民 Hui Zhan-Qiang;Liu Rui-Hua;Gao Li-Ming;Han Dong-Dong;Li Tian-Tian;Gong Jia-Min(School of Electronic Engineering,Xi’an University of Posts and Telecommunications,Xi’an 710121,China;Xi’an Key Laboratory of Microwave Photonics and Optical Communication Technology,Xi’an 710121,China)

机构地区：[1]西安邮电大学电子工程学院,西安710121 [2]西安市微波光子与光通信技术重点实验室,西安710121

出　　处：《物理学报》2024年第7期90-103,共14页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:61875165);陕西省重点研发计划(批准号:2022GY-008);陕西省自然科学研究计划(批准号:2022JQ-638);陕西省创新能力支撑计划项目(批准号:2022PT-15);陕西省教育厅协同创新项目(批准号:20JY060);705所重点实验室开放基金(批准号:705JCH2023-3.2)资助的课题。

摘　　要：本文设计了一种具有对称双环嵌套管结构的新型低损耗少模空芯负曲率光纤,该光纤支持LP_(01),LP_(11),LP_(21),LP_(02),LP_(31a),LP_(31b)共6种纤芯模式.所设计的光纤以SiO(_2)作为基底材料,采用特殊的对称双环嵌套结构将包层区域进行划分,能够有效地减小纤芯模式与包层模式的耦合.使用有限元法对该少模空芯负曲率光纤的结构参数进行优化,并分析了纤芯各个模式的限制损耗和弯曲损耗.仿真结果表明,所提出的少模空芯负曲率光纤能够同时支持弱耦合的6种纤芯模式独立传输(相邻模式间的有效折射率差均大于10~(–4),有效地避免了纤芯内模式间的耦合).在400 nm带宽(1.23—1.63μm,覆盖O,E,S,C,L波段)范围内,纤芯中的6个模式均保持低损耗稳定传输.各模式限制损耗在1.4μm处达到最低,其中基模LP_(01)模式的限制损耗最低,为4.3×10^(–7)d B/m.此外,当弯曲半径为7 cm时,各模式在一定工作波长范围内均保持低弯曲损耗传输.公差分析表明,当结构参数偏移±1%时,该少模空芯负曲率光纤仍然可以保持低损耗弱耦合的传输特性.Few-mode optical fibers have played an increasingly important role in breaking through the transmission capacity limitations of single-mode optical fiber and alleviating the bandwidth crisis in optic fiber communication systems in recent years.Nevertheless,traditional solid core few-mode optical fibers usually suffer optical fiber nonlinearity and mode coupling,leading to mode crosstalk between channels.Hollow core negative curvature fibers(HC-NCF)have attracted widespread attention due to their advantages,such as low latency,low nonlinearity,low dispersion,low transmission loss,and large operating bandwidth.In this work,a novel low-loss few-mode HC-NCF with symmetrically double ring nested tube structure is designed,which supports six core modes including LP_(01),LP_(11),LP_(21),LP_(02),LP_(31a),and LP31b.The designed optical fiber is based on silica dioxide substrate and adopts a unique symmetrical double ring nested cladding structure,which can effectively suppress the coupling between the core mode and the cladding mode.The finite element method(FDE)is used to numerically analyze the properties of the proposed few-mode HC-NCF and optimize the structural parameters of the few-mode HC-NCF.Moreover,the confinement loss and bending loss of all core modes are investigated.The simulation results show that the proposed few-mode HC-NCF can support the independent transmission of six weakly coupled core modes(with the effective refractive index difference greater than 1×10^(–4)between the adjacent core modes,which greatly avoids the coupling between the adjacent modes in the fiber core).In the 400 nm bandwidth(1.23–1.63μm,covering the O,E,S,C,and L bands),all six modes in the fiber core maintain low loss transmission.Moreover,in the range of 1.3–1.63μm,the confinement loss(CL)of LP_(01),LP_(11)and LP_(21)mode are all less than 1×10^(–3)dB/m,and the CL of LP_(02)and LP31b mode are both less than 3×10^(–3)dB/m.The CL of each mode reaches the lowest value at 1.4μm,and the LP_(01)mode has the lowest CL of

关 键 词：空芯负曲率光纤 少模光纤 限制损耗 弯曲损耗 

分 类 号：TN253[电子电信—物理电子学]