J
J. Osenbach
Researcher at Infinera
Publications - 23
Citations - 548
J. Osenbach is an academic researcher from Infinera. The author has contributed to research in topics: Photonic integrated circuit & Transmission (telecommunications). The author has an hindex of 11, co-authored 23 publications receiving 351 citations. Previous affiliations of J. Osenbach include Agere Systems.
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Journal ArticleDOI
800G DSP ASIC Design Using Probabilistic Shaping and Digital Sub-Carrier Multiplexing
Han Sun,Mehdi Torbatian,Mehdi Karimi,Robert Maher,Sandy Thomson,Mohsen Nader Tehrani,Yuliang Gao,Ales Kumpera,George Soliman,Aditya Kakkar,Mohammad Osman,Ziad A. El-Sahn,Clayton Doggart,Weikun Hou,Shailesh Sutarwala,Yuejian Wu,Mohammad Reza Chitgarha,Vikrant Lal,Huan-Shang Tsai,Scott Corzine,Jiaming Zhang,J. Osenbach,S. Buggaveeti,Zulfikar Morbi,Miguel Iglesias Olmedo,I. Leung,Xian Xu,Parmijit Samra,Vince Dominic,Steve Sanders,Mehrdad Ziari,Antonio Napoli,Bernhard Spinnler,Kuang-Tsan Wu,Parthiban Kandappan +34 more
TL;DR: This manuscript discusses the motivations for jointly utilizing transmission techniques such as probabilistic shaping and digital sub-carrier multiplexing in digital coherent optical transmissions systems and describes the key-building blocks of modern high-speed DSP-based transponders working at up to 800G per wave.
Journal ArticleDOI
System-on-Chip Photonic Integrated Circuits
Fred A. Kish,Vikrant Lal,Peter W. Evans,Scott Corzine,Mehrdad Ziari,Tim Butrie,M. Reffle,Huan-Shang Tsai,Andrew Dentai,Jacco Pleumeekers,Mark J. Missey,M. Fisher,S. Murthy,Randal A. Salvatore,Parmijit Samra,Scott Demars,Naksup Kim,Adam James,Amir Hosseini,P. Studenkov,Matthias Lauermann,Ryan Going,Mingzhi Lu,Jiaming Zhang,Jie Tang,Jeff Bostak,Thomas Vallaitis,Matthias Kuntz,Don Pavinski,A. Karanicolas,B. Behnia,Darrell Engel,O. Khayam,Nikhil Modi,Mohammad Reza Chitgarha,Pierre Mertz,Wilson Ko,Robert Maher,J. Osenbach,Jeffrey T. Rahn,Han Sun,Kuang-Tsan Wu,Matthew L. Mitchell,David F. Welch +43 more
TL;DR: Key advances which enabled the InP photonic integrated circuit (PIC) and the subsequent progression of InP PICs to fully integrated multichannel DWDM system-on-chip (SOC) PIC’s are described.
Journal ArticleDOI
Extended C-Band Tunable Multi-Channel InP-Based Coherent Transmitter PICs
Vikrant Lal,J. Summers,Naksup Kim,Scott Corzine,Peter W. Evans,Matthias Lauermann,An Nguyen,Amir Hosseini,Mingzhi Lu,Jeffrey T. Rahn,Mohammad Reza Chitgarha,Jiaming Zhang,J. Osenbach,Thomas Vallaitis,Parmijit Samra,Charles Park,Matthias Kuntz,Jie Tang,C. Tsai,Han Sun,Rene Schmogrow,Don Pavinski,B. Behnia,Pierre Mertz,Tim Butrie,Kuang-Tsan Wu,Matthew L. Mitchell,Mehrdad Ziari,M. Reffle,David F. Welch,Fred A. Kish +30 more
TL;DR: In this paper, a fully integrated multi-channel InP-based coherent transmitter photonic integrated circuits (PICs) with extended C-band tunability, operating at 33 and 44 Gbaud per channel under 16-QAM dual-polarization modulation.
Proceedings ArticleDOI
Multi-channel InP-based Coherent PICs with Hybrid Integrated SiGe Electronics Operating up to 100 GBd, 32QAM
Ryan Going,Matthias Lauermann,Robert Maher,Huan-Shang Tsai,Mingzhi Lu,Naksup Kim,Scott Corzine,P. Studenkov,J. Summers,Amir Hosseini,Jiaming Zhang,B. Behnia,Jie Tang,S. Buggaveeti,Thomas Vallaitis,J. Osenbach,Matthias Kuntz,Xian Xu,Kevin Croussore,Vikrant Lal,Peter W. Evans,Jeffrey T. Rahn,T. Butrie,A. Karanicolas,Kuang-Tsan Wu,Matthew L. Mitchell,Mehrdad Ziari,Dave Welch,F.A. Kish +28 more
TL;DR: InP-based coherent transmitter PICs with hybrid integrated SiGe drivers operating at 100GBd, 32QAM back-to-back (1 Tb/wave capable), and at 100 GBd, 16QAM over 1400km are reported.
Journal ArticleDOI
1.00 (0.88) Tb/s per Wave Capable Coherent Multi-Channel Transmitter (Receiver) InP-Based PICs With Hybrid Integrated SiGe Electronics
Ryan Going,Matthias Lauermann,Robert Maher,Huan-Shang Tsai,Amir Hosseini,Mingzhi Lu,Naksup Kim,P. Studenkov,Scott Corzine,J. Summers,Maria Anagnosti,Mohammad Montazeri,Jiaming Zhang,B. Behnia,Jie Tang,S. Buggaveeti,Thomas Vallaitis,J. Osenbach,Matthias Kuntz,Xian Xu,Kevin Croussore,Vikrant Lal,Peter W. Evans,Jeffrey T. Rahn,Tim Butrie,A. Karanicolas,Kuang-Tsan Wu,Matthew L. Mitchell,Mehrdad Ziari,David F. Welch,Fred A. Kish +30 more
TL;DR: In this article, the authors demonstrate multi-channel InP-based coherent transmitter and receiver photonic integrated circuits hybrid integrated with SiGe driving and amplifying electronics both capable of operating at 880 Gb/s and the transmitter alone up to 1 T b/s per wave.