Multi-Core Optical Fiber with Stepped Single-Mode Cores. Part 1. Insulation with Solid Clads

Proceedings of Telecommunication Universities Pub Date : 2023-01-10 DOI:10.31854/1813-324x-2022-8-4-28-38

M. Bylina, L. Gultyaeva

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Abstract

An optical fiber with several unrelated cores inside a common clad (multi-core fiber) is used to increase the capacity of linear paths of communication systems. The number of cores in one fiber is limited by mutual influences between them, to reduce which various design solutions are used. The aim of the work is to compare various multicore fibers and identify structures that allow placing the largest number of cores in a common shell with a standard diameter of 125 microns. In the first part of this paper, modeling of single-mode fibers with cores isolated by additional solid shells is carried out. As a result of modeling, the characteristics of the fundamental modes of the cores of each fiber are calculated – the distribution of the electric field strength, chromatic dispersion and the diameter of the field of the fundamental mode, a technique is proposed and an assessment of mutual influences is carried out, the maximum possible number of cores is determined. It is shown that the insulating clad reduces mutual influences and allows increasing the number of cores by reducing the distance between them.

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阶梯式单模芯多芯光纤。第1部分。带固体包层的绝缘

在一个共包层(多芯光纤)中使用几个不相关芯的光纤来增加通信系统的线性路径的容量。一根光纤的芯数受到芯数之间相互影响的限制，为了减少芯数，采用了各种设计方案。这项工作的目的是比较各种多芯纤维，并确定允许在标准直径为125微米的普通外壳中放置最多芯的结构。在本文的第一部分中，对芯被附加实壳隔离的单模光纤进行了建模。在此基础上，计算了每根光纤芯的基模特性——电场强度、色散和基模场直径的分布，提出了一种技术，并对相互影响进行了评估，确定了最大可能芯数。结果表明，绝缘包层减少了相互影响，并通过减小芯间距离来增加芯数。

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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Proceedings of Telecommunication Universities

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