Silicon photonics: enabling optical and microwave signal processing for broadband communications beyond the next decade

硅光子学：为未来十年的宽带通信提供光学和微波信号处理

• 批准号: RGPIN-2015-04386
• 负责人: Chen, Lawrence
• 金额: $ 4.23万
• 依托单位: McGill University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=690814
• 关键词: Silicon; photonics; enabling; optical; microwave

Digital technology and the internet have changed the way we interact:  a digital culture embracing video-oriented services for communication, education, entertainment, healthcare, and business has emerged.  The overall mission of this research program is to deliver disruptive technologies to power the fiber optic and optical-wireless telecommunications infrastructure necessary to support this digital culture.  We will achieve our mission through research on two inter-related topics:  Theme 1-silicon photonics for optical signal processing and Theme 2-silicon photonics for microwave signal processing.****The long term objective of Theme 1 research is to provide innovative solutions for signal processing based on silicon photonics that address issues and challenges associated with the parallel transmission of data signals, i.e., space-division-multiplexing, which is recognized as the only means to increase transmission beyond known capacity limits of single mode fiber and avoid bandwidth exhaust in fiber optic communications.  ***In a parallel effort, the long term objective of Theme 2 is to develop integrated microwave photonic systems in silicon photonics for optical-wireless communications that address the unprecedented increase in consumer demand for wireless gigabit service.  The devices will realize important functionalities in microwave systems that are complex or otherwise impossible to achieve using electronics.***In the short term, we will design fundamental building blocks in silicon photonics and investigate the performance limitations of the various approaches for optical and microwave signal processing.***The information and communications technology (ICT) sector has long been central to Canada's economic development and ICT industries have accounted for 7.5% of the Canadian GDP growth since 2007.  The ideas, results, and technologies generated from the proposed research program can be adopted by ICT industries through partnerships, student internships, and collaborations.  The research program will provide excellent training for four students per year in signal processing; optical communications; numerical modelling; device design, fabrication, and testing; and in systems experiments.  They will be in an excellent position to make immediate contributions and have an impact in the ICT sector.  Graduates from the current research program have been placed in relevant industries, including Ciena and MPB Communications.**

数字技术和互联网已经改变了我们的互动方式：一种数字文化已经出现，包括面向通信，教育，娱乐，医疗保健和商业的视频服务。 该研究计划的总体使命是提供颠覆性技术，为支持这种数字文化所必需的光纤和光无线电信基础设施提供动力。我们将通过研究两个相互关联的主题来实现我们的使命：主题1-用于光信号处理的硅光子学和主题2-用于微波信号处理的硅光子学。*主题1研究的长期目标是为基于硅光子学的信号处理提供创新解决方案，解决与数据信号并行传输相关的问题和挑战，即，空分多路复用被认为是将传输增加到单模光纤的已知容量极限之外并避免光纤通信中的带宽耗尽的唯一手段。 * 与此同时，主题2的长期目标是开发用于光无线通信的硅光子集成微波光子系统，以满足消费者对无线千兆位服务前所未有的增长需求。这些设备将实现微波系统中的重要功能，这些功能是复杂的或不可能使用电子技术实现的。*在短期内，我们将设计硅光子学的基本构建模块，并研究光学和微波信号处理的各种方法的性能限制。信息和通信技术（ICT）部门长期以来一直是加拿大经济发展的核心，自2007年以来，ICT行业占加拿大GDP增长的7.5%。从拟议的研究计划中产生的想法，结果和技术可以通过ICT行业通过合作伙伴关系，学生实习，该研究计划将为每年四名学生提供信号处理方面的优秀培训;光通信;数值建模;设备设计，制造和测试;以及系统实验。 它们将处于一个非常有利的地位，能够立即作出贡献，并对信息和通信技术部门产生影响。 从目前的研究计划的毕业生已被放置在相关行业，包括Ciena和MPB通信。