학술논문
Large-Scale Photonic Integrated Circuits Used for Ultra Long Haul Transmission
Document Type
Conference
Author
Lambert, D.J.H.; Joyner, C.H.; Rossi, J.; Kish, F.A.; Nagarajan, R.; Grubb, S.; Van Leeuwen, M.F.; Kato, M.; Pleumeekers, J.L.; Mathur, A.; Evans, P.W.; Murthy, S.; Mathis, S.K.; Baeck, J.; Missey, M.J.; Dentai, A.G.; Salvatore, R.A.; Schneider, R.P.; Ziari, M.; Mertz, P.; Laliberte, M.; Bostak, J.S.; Butrie, T.; Dominic, V.G.; Kauffman, M.; Miles, R.H.; Mitchell, M.L.; Nilsson, A.C.; Pennypacker, S.C.; Schlenker, R.; Tsai, H.-S.; Webjorn, J.; Reffle, M.; Mehuys, D.G.; Welch, D.F.
Source
LEOS 2007 - IEEE Lasers and Electro-Optics Society Annual Meeting Conference Proceedings Lasers and Electro-Optics Society, 2007. LEOS 2007. The 20th Annual Meeting of the IEEE. :778-779 Oct, 2007
Subject
Language
ISSN
1092-8081
Abstract
Commercially available monolithic Photonic Integrated Circuits (PIC) capable of transmitting at a rate of 100 Gbps have been scaled to incorporate a record number of discrete components exceeding a count of 280 per PIC pair. Recently, it has been demonstrated that these highly reliable devices are not reach-limited and are inherently capable of Ultra Long-Haul (ULH) transmission. We will present results showing that 800 Gbps transport with high polarization mode distortion.