학술논문
Polarization mode dispersion in CMOS-integrated monolithic SiPh components: simulations and experiments
Document Type
Conference
Author
Bian, Yusheng; Ding, Hanyi; Aboketaf, Abdelsalam; Karra, Vaishnavi; Sorbara, Massimo; Hirokawa, Takako; Mosleh, Salman; Hedges, Chrystal; Lee, Won Suk; Chandran, Sujith; Chatterjee, Avijit; Nandi, Riddhi; Giewont, Ken; Nummy, Karen; Gabbay, Alon; De Koninck, Yannick; Verbist, Jochem; Echeverri, Santiago; Gantz, Liron; Liu, Qidi; Logan, Dylan; Jafari, Omid; Murray, Kyle; Huante-Ceron, Edgar; Roy, Subharup; Webster-Pact, Paul; Rakowski, Michal; Dezfulian, Kevin K.; Stricker, Andy; Houghton, Thomas; Donegan, Keith; Sporer, Ryan; Cho, Jae Kyu; Barakat, Farid; Moy, Dan; Wu, Zhuo-Jie George; Krishnamurthy, Subramanian; Najafi, Arman; Banihashemian, Seyedeh Fahimeh; Mincar, Rick; Sirdeshmukh, Ranjani; Robson, Norm; Melville, Ian; Augur, Rod; Lee, Jae Gon; Lin, Wenhe; Gifford, George; Fox, Robert; Gupta, Vikas; Yu, Anthony; Pellerin, John; Letavic, Ted
Source
2023 Optical Fiber Communications Conference and Exhibition (OFC) Optical Fiber Communications Conference and Exhibition (OFC), 2023. :1-3 Mar, 2023
Subject
Language
Abstract
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.