通过光纤弯曲调节应变的硅光子共封装光学集成连接器

Alexander Janta-Polczynski, M. Robitaille
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引用次数: 1

摘要

自动化光纤到V/ u槽组件为单模光纤到硅光子集成电路的接口提供了一个强大而经济的解决方案;然而,处理和组装长辫连接到光子封装提出了重大挑战。集成的高带宽光学连接器与固定在模块上的锁存机制可以消除这些封装挑战,并为光子产品提供有吸引力的替代方案。本文研究了一种将标准单模光纤机械传输连接器与共封装光子模块集成在一起的多光纤接口。几何结构利用纤维弯曲来适应应变,并在温度漂移过程中控制两个锚点的应力。我们演示了在所选配置中使用长度大于25mm的纤维的好处。几度的纤维出口角在控制纤维屈曲方向和减少纤维活塞作用方面具有一定的优势。然而,它可能与其他因素一起,对回流温度下的内应力有害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated Connector for Silicon Photonic Co-package Optics with Strain Relief Accommodation Through Fiber Bending
Automated fiber to V/U-groove assemblies offer a robust and cost-effective solution to interface single mode fibers to silicon photonic integrated circuits; however, the handling and assembly of long pigtails attached to photonic packages pose significant challenges. An integrated high-bandwidth optical connector with a latching mechanism secured to the module could eliminate these packaging challenges and provide an attractive alternative for photonic products. A multi-fiber interface integrating a standard single mode fiber mechanical transfer connector to a co-package photonics module is studied here. The geometric configuration exploits the fiber bending to accommodate the strain and control the stress at both anchor points throughout temperature excursions. We demonstrate the benefits of using fibers longer than 25mm for the selected configuration. A fiber exit angle of a few degrees can provide some advantages in controlling the fiber buckling direction and reducing the fiber pistoning. It may however, along with other factors, be detrimental to the internal stress at reflow temperatures.
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