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Comparison of microrings and microdisks for high-speed optical modulation in silicon photonics
Applied Physics Letters ( IF 4 ) Pub Date : 2018-03-12 , DOI: 10.1063/1.5019590
Zhoufeng Ying 1 , Zheng Wang 1, 2 , Zheng Zhao 1 , Shounak Dhar 1 , David Z. Pan 1 , Richard Soref 3 , Ray T. Chen 1, 2, 4
Affiliation  

The past several decades have witnessed the gradual transition from electrical to optical interconnects, ranging from long-haul telecommunication to chip-to-chip interconnects. As one type of key component in integrated optical interconnect and high-performance computing, optical modulators have been well developed these past few years, including ultrahigh-speed microring and microdisk modulators. In this paper, a comparison between microring and microdisk modulators is well analyzed in terms of dimensions, static and dynamic power consumption, and fabrication tolerance. The results show that microdisks have advantages over microrings in these aspects, which gives instructions to the chip design of high-density integrated systems for optical interconnects and optical computing.The past several decades have witnessed the gradual transition from electrical to optical interconnects, ranging from long-haul telecommunication to chip-to-chip interconnects. As one type of key component in integrated optical interconnect and high-performance computing, optical modulators have been well developed these past few years, including ultrahigh-speed microring and microdisk modulators. In this paper, a comparison between microring and microdisk modulators is well analyzed in terms of dimensions, static and dynamic power consumption, and fabrication tolerance. The results show that microdisks have advantages over microrings in these aspects, which gives instructions to the chip design of high-density integrated systems for optical interconnects and optical computing.

中文翻译:

用于硅光子学中高速光调制的微环和微盘的比较

过去几十年见证了从电互连到光互连的逐渐转变,从长途电信到芯片到芯片互连。光调制器作为集成光互连和高性能计算中的一种关键部件,近年来得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这为用于光互连和光计算的高密度集成系统的芯片设计提供了指导。过去几十年见证了从电互连到光互连的逐渐转变,从长途电信到芯片到芯片互连。光调制器作为集成光互连和高性能计算中的一种关键部件,近年来得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这对用于光互连和光计算的高密度集成系统的芯片设计具有指导意义。从长途电信到芯片到芯片互连。光调制器作为集成光互连和高性能计算中的一种关键部件,近年来得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这对用于光互连和光计算的高密度集成系统的芯片设计具有指导意义。从长途电信到芯片到芯片互连。光调制器作为集成光互连和高性能计算中的一种关键部件,近年来得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这对用于光互连和光计算的高密度集成系统的芯片设计具有指导意义。光调制器在过去几年得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这对用于光互连和光计算的高密度集成系统的芯片设计具有指导意义。光调制器在过去几年得到了很好的发展,包括超高速微环和微盘调制器。在本文中,微环和微盘调制器在尺寸、静态和动态功耗以及制造公差方面的比较得到了很好的分析。结果表明,微盘在这些方面比微环具有优势,这对用于光互连和光计算的高密度集成系统的芯片设计具有指导意义。
更新日期:2018-03-12
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