We report on advances in polymeric waveguide technologies developed worldwide for the telecom and datacom markets, and we describe in detail one such technology developed at AlliedSignal. Optical polymers are versatile materials that can be readily formed into planar single-mode, multimode, and microoptical waveguide structures ranging in dimensions from under a micrometer to several hundred micrometers. These materials can be thermoplastics, thermosets, or photopolymers, and the starting formulations are typically either polymers or oligomers in solution or liquid monomers. Transmission losses in polymers can be minimized, typically by halogenation, with state-of-the-art loss values being about 0.01 dB/cm at 840 nm and about 0.1 dB/cm at 1550 nm. A number of polymers have been shown to exhibit excellent environmental stability and have demonstrated capability in a variety of demanding applications. Waveguides can be formed by direct photolithography, reactive ion etching, laser ablation, molding, or embossing. Well-developed adhesion schemes permit the use of polymers on a wide range of rigid and flexible substrates. Integrated optical devices fabricated to date include numerous passive and active elements that achieve a variety of coupling, routing, filtering, and switching functions.
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机译:我们报告了在全球范围内为电信和数据通信市场开发的聚合物波导技术的进展,并详细介绍了AlliedSignal开发的一种此类技术。光学聚合物是通用材料,可以很容易地形成平面的单模,多模和微光波导结构,其尺寸范围从微米以下到几百微米。这些材料可以是热塑性塑料,热固性塑料或光敏聚合物,起始配方通常是溶液或液体单体中的聚合物或低聚物。通常可以通过卤化来使聚合物中的传输损耗最小化,现有技术的损耗值在840 nm处约为0.01 dB / cm,在1550 nm处约为0.1 dB / cm。已经显示出许多聚合物表现出优异的环境稳定性,并在各种苛刻的应用中证明了其能力。波导可以通过直接光刻,反应离子蚀刻,激光烧蚀,模制或压花形成。完善的粘合方案允许在各种刚性和柔性基材上使用聚合物。迄今为止制造的集成光学设备包括众多无源和有源元件,可实现多种耦合,路由,滤波和切换功能。
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