基于超模理论的双芯光纤耦合系数的有限元计算

Tianhao Zhao, Wenhua Ren, Tingya Yin, Fan Wang
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引用次数: 1

摘要

目前,耦合模式理论(CMT)被广泛用于计算双芯光纤(tcf)的耦合系数,在许多重要的应用中得到了广泛的应用。这种方法对于核心之间的弱耦合情况非常精确,但在强耦合情况下显示出明显的误差,因此需要使用更精确的方法来计算耦合系数。因此,本文采用超模态理论和有限元方法计算TCF的耦合系数,特别是对强耦合的TCF计算精度高于CMT。为了探讨两种方法计算结果差异的原因,对TCF超模态的模态场分布进行了详细的模拟和分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Calculation of the Coupling Coefficient of Twin-Core Fiber Based on the Supermode Theory with Finite Element Method
Currently, coupled mode theory (CMT) is widely used for calculating the coupling coefficient of twin-core fibers (TCFs) that are used in a broad range of important applications. This approach is highly accurate for scenarios with weak coupling between the cores but shows significant errors in the strong coupling scenarios, necessitating the use of a more accurate method for coupling coefficient calculations. Therefore, in this work, we calculate the coupling coefficients of TCFs using the supermode theory with finite element method (FEM) that has higher accuracy than CMT, particularly for the strong coupling TCF. To investigate the origin of the differences between the results obtained by these two methods, the modal field distributions of the supermodes of TCF are simulated and analyzed in detail.
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