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    • Silicon CMOS-integrated Nano-Photonics for Computer and Data Communications Beyond 100G.

    Chong Zhang,Minh A. Tran,Zeyu Zhang, Ali E. Dorche,Yang Shen,Boqiang Shen,Kaustubh Asawa,Glenn Kim, Nathan Kim, Frank Levinson,John E. Bowers,Tin Komljenovic

    IEEE Communications Magazine(2023)SCI 1区

    Nexus Photon

    Cited 358|Views8
    Abstract
    The development of photonic integrated circuits has historically been driven by communications. However, emerging markets and opportunities require platforms that can operate over a broader wavelength range, offer additional capabilities, or improve performance. This paper provides a perspective on these emerging opportunities and the most promising approaches for addressing them, with a focus on platforms that support on-chip light generation and amplification.
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    CMOS integrated circuits,IEEE Standards,Photonics,Transceivers,CMOS technology,Wavelength division multiplexing,Optical interconnections,Silicon
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    要点】:本文探讨了硅CMOS集成纳米光子技术在超越100G计算机和数据通信中的新兴市场机会及最具前景的解决方法,重点在于支持芯片上光生成和放大的平台。
    

    方法】:作者分析了当前硅CMOS集成纳米光子技术的发展趋势,并提出了应对新兴市场需求的方法。
    

    实验】:论文未具体描述实验过程,但提及了研究视角和平台性能的优化,未提供数据集名称及实验结果。
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