Polarization mode dispersion in CMOS-integrated monolithic SiPh components: simulations and experiments

Yusheng Bian,Hanyi Ding,Abdelsalam Aboketaf, Vaishnavi Karra, Massimo Sorbara,Takako Hirokawa,Salman Mosleh, Chrystal Hedges,Won Suk Lee,Sujith Chandran,Avijit Chatterjee,Riddhi Nandi,Ken Giewont,Karen Nummy, Alon Gabbay,Yannick De Koninck,Jochem Verbist, Santiago Echeverri, Liron Gantz,Qidi Liu,Dylan Logan,Omid Jafari, Kyle Murray,Edgar Huante-Ceron, Subharup Roy, Paul Webster-Pact,Michal Rakowski, Kevin K. Dezfulian,Andy Stricker,Thomas Houghton, Keith Donegan, Ryan Sporer,Jae Kyu Cho, Farid Barakat,Dan Moy, Zhuo-Jie (George) Wu,Subramanian Krishnamurthy,Arman Najafi, Seyedeh Fahimeh Banihashemian, Rick Mincar, Ranjani Sirdeshmukh,Norm Robson, Ian Melville,Rod Augur,Jae Gon Lee,Wenhe Lin,George Gifford,Robert Fox,Vikas Gupta,Anthony Yu, John Pellerin,Ted Letavic

OFC（2023）

引用 0|浏览13

暂无评分

摘要

We simulated and experimentally characterized the differential group delay induced from polarization mode dispersion (PMD) of key components on a monolithic SiPh platform. Strategy for compensating PMD was introduced for high-speed applications beyond 100 Gbit/s. (c) 2023

查看译文

关键词

bit rate 100.0 Gbit/s,CMOS-integrated monolithic components,differential group delay,high-speed applications,polarization mode dispersion,Si/int

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要