Azimuthal Fourier decomposition for loss analysis of hollow-core tube lattice fibers, Part II: Tube thickness variation effects

Q3 Physics and Astronomy

Results in Optics Pub Date : 2024-07-01 DOI:10.1016/j.rio.2024.100726

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Abstract

The effect on confinement loss of thickness variations along the perimeter of the tubes composing the cladding of inhibited-coupling guiding Tube Lattice hollow-core fibers is investigated by using the Azimuthal Fourier Decomposition technique (developed in Part I) for the description of the cladding modal dynamics and their interaction with the fundamental core mode. The results show that the thickness inhomogeneity affects the confinement loss spectrum through confinement loss increase and frequency red- and blue-shift of the high-loss spectral regions. The magnitudes of the confinement loss increase and the high-loss region frequency shift strongly depend on the spatial distribution of the thickness inhomogeneity. The study provides insight into the loss mechanism of non-ideal tube lattice fibers, it allows to quantify the impact of such kind of structural deformations, identifying the route to make fibers more resilient to such fabrication imperfections, and highlighting once again the importance played in inhibited-coupling fibers by the interaction between core modes and the intricate set of cladding modes.

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用于空芯管状晶格光纤损耗分析的方位傅立叶分解法第二部分：管厚度变化效应

通过使用方位傅里叶分解技术（在第一部分中开发）来描述包层模态动力学及其与基本纤芯模态的相互作用，研究了构成抑制耦合导向管晶格中空纤芯包层的管子沿周边的厚度变化对禁锢损耗的影响。研究结果表明，厚度不均匀性会通过约束损耗增加以及高损耗频谱区的频率红移和蓝移影响约束损耗频谱。约束损耗增加和高损耗区频率偏移的幅度与厚度不均匀性的空间分布密切相关。这项研究深入揭示了非理想管状晶格光纤的损耗机理，量化了此类结构变形的影响，确定了使光纤更能抵御此类制造缺陷的途径，并再次强调了纤芯模式与错综复杂的包层模式之间的相互作用在抑制耦合光纤中的重要性。

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来源期刊

Results in Optics Physics and Astronomy-Atomic and Molecular Physics, and Optics

CiteScore

2.50

自引率

0.00%

发文量

115

审稿时长

71 days