Prospects and applications of on-chip lasers.

IF 27.2 Q1 OPTICS eLight Pub Date : 2023-01-01 Epub Date: 2023-01-04 DOI:10.1186/s43593-022-00027-x
Zhican Zhou, Xiangpeng Ou, Yuetong Fang, Emad Alkhazraji, Renjing Xu, Yating Wan, John E Bowers
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Abstract

Integrated silicon photonics has sparked a significant ramp-up of investment in both academia and industry as a scalable, power-efficient, and eco-friendly solution. At the heart of this platform is the light source, which in itself, has been the focus of research and development extensively. This paper sheds light and conveys our perspective on the current state-of-the-art in different aspects of application-driven on-chip silicon lasers. We tackle this from two perspectives: device-level and system-wide points of view. In the former, the different routes taken in integrating on-chip lasers are explored from different material systems to the chosen integration methodologies. Then, the discussion focus is shifted towards system-wide applications that show great prospects in incorporating photonic integrated circuits (PIC) with on-chip lasers and active devices, namely, optical communications and interconnects, optical phased array-based LiDAR, sensors for chemical and biological analysis, integrated quantum technologies, and finally, optical computing. By leveraging the myriad inherent attractive features of integrated silicon photonics, this paper aims to inspire further development in incorporating PICs with on-chip lasers in, but not limited to, these applications for substantial performance gains, green solutions, and mass production.

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片上激光器的前景和应用。
集成硅光子技术作为一种可扩展、高能效和环保型解决方案,在学术界和工业界都引发了大量投资。该平台的核心是光源,而光源本身也一直是广泛研究和开发的重点。本文从应用驱动型片上硅激光器的不同方面揭示和传达了我们对当前最先进技术的看法。我们从两个角度来探讨这个问题:器件级观点和系统级观点。前者从不同的材料系统到所选的集成方法,探讨了集成片上激光器的不同途径。然后,讨论重点转向全系统应用,这些应用显示了将光子集成电路(PIC)与片上激光器和有源器件相结合的巨大前景,即光通信和互连、基于光学相控阵的激光雷达、用于化学和生物分析的传感器、集成量子技术,以及最后的光计算。本文旨在利用集成硅光子学所固有的各种诱人特性,进一步推动将带有片上激光器的集成电路(PIC)应用于(但不限于)这些应用领域的发展,从而实现性能的大幅提升、绿色解决方案和大规模生产。
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CiteScore
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