光通信中s弯结构尺寸的减小

2019 IEEE International Conference on Design & Test of Integrated Micro & Nano-Systems (DTS) Pub Date : 2019-04-01 DOI:10.1109/DTSS.2019.8915342

F. Brik, S. Harize, A. Fares

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引用次数: 2

摘要

S- Bend结构用于连接电路的不同部分，如光耦合器、调制器和开关。这些设备必须设计到最小化曲率半径引起的信号损失，并且已经提出了几种替代方案来减少这些损失。然而，最小化这些损失需要高曲率半径值，这导致结构长度与集成光学器件不相容。本文提出了一种将s弯与直波导连接起来的新方法，以减小损耗。使用Rsoft Beamprob商用软件包对S-Bend进行了性能评估，无论是否进行了所提出的优化。模拟结果可以区分辐射损失和跃迁损失。它们还证实了曲率半径对损耗有很大的影响，曲率半径越小损耗越大。通过在不同的过渡处引入最佳偏移量，可以最小化集成光学结构的长度，从而实现相对最小的损耗。

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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Reduction of an S-bend structure size for optic telecommunication

The S- Bend structures are used to connect different parts of a circuit such as optical couplers, modulators and switches. These devices must be designed to minimize the signal loss caused by the radius of the curvature and several alternatives have been proposed to reduce these losses. However, minimizing these losses requires a high value of the curvature radius which leads to a structure length incompatible with the integrated optics. In this paper a new approach to connect the S-Bend and the straight waveguide in order to minimize losses is presented. Performance evaluations of the S-Bend, with and without the proposed optimization, are carried on with the Rsoft Beamprob commercial software package. Simulations result allowed a distinction between the radiation losses and the transition losses. They also confirm that the radius of curvature has a great influence on the losses which increase when the radius decreases. By introducing an optimum offset at the different transitions, it was possible to minimize the length of the structure for the integrated optics and this for a relative minimum of losses.

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来源期刊

2019 IEEE International Conference on Design & Test of Integrated Micro & Nano-Systems (DTS)

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