R
Randal A. Salvatore
Researcher at Infinera
Publications - 81
Citations - 1938
Randal A. Salvatore is an academic researcher from Infinera. The author has contributed to research in topics: Photonic integrated circuit & Laser. The author has an hindex of 20, co-authored 81 publications receiving 1841 citations. Previous affiliations of Randal A. Salvatore include California Institute of Technology & University of California, Santa Barbara.
Papers
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Journal ArticleDOI
Large-scale photonic integrated circuits
Radhakrishnan Nagarajan,C.H. Joyner,Richard P. Schneider,J.S. Bostak,T. Butrie,Andrew Dentai,Vince Dominic,Peter W. Evans,Masaki Kato,M. Kauffman,Damien Lambert,S.K. Mathis,Atul Mathur,R.H. Miles,Matthew L. Mitchell,Mark J. Missey,S. Murthy,Alan C. Nilsson,Frank H. Peters,S.C. Pennypacker,Jacco Pleumeekers,Randal A. Salvatore,R. Schlenker,Robert B. Taylor,Huan-Shang Tsai,M.F. Van Leeuwen,Jonas Webjorn,Mehrdad Ziari,D. Perkins,Jagdeep Singh,S.G. Grubb,M. Reffle,David G. Mehuys,Fred A. Kish,David F. Welch +34 more
TL;DR: An overview of Infinera's current generation of 100 Gb/s transmitter and receiver PICs as well as results from the next-generation 500 G b/s PM-QPSK P ICs are presented.
Journal ArticleDOI
InP Photonic Integrated Circuits
Radhakrishnan Nagarajan,Masaki Kato,Jacco Pleumeekers,Peter W. Evans,Scott Corzine,Sheila Hurtt,Andrew Dentai,S. Murthy,Mark J. Missey,R. Muthiah,Randal A. Salvatore,C.H. Joyner,Richard P. Schneider,Mehrdad Ziari,Fred A. Kish,David F. Welch +15 more
TL;DR: In this article, the state of the art in advanced InP photonic ICs is reviewed for the 1.3-1.6 m wavelength optical fiber optical fiber. And the authors present a survey of the state-of-the-art in InP ICs.
Proceedings ArticleDOI
Large-Scale Photonic Integrated Circuits
Radhakrishnan Nagarajan,Masaki Kato,Jacco Pleumeekers,Peter W. Evans,Sheila Hurtt,Andrew Dentai,Mark J. Missey,A. Chen,Atul Mathur,Damien Lambert,P. Chavarkar,J. Back,R. Muthiah,S. Murthy,Randal A. Salvatore,C.H. Joyner,J. Rossi,Richard P. Schneider,Mehrdad Ziari,Fred A. Kish,David F. Welch +20 more
TL;DR: In this article, the authors review the work in the area of large scale InP photonic integrated circuits (PIC) with up to 40 channels and data rates up to Gbit/s.
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
Current Status of Large-Scale InP Photonic Integrated Circuits
F.A. Kish,Dave Welch,Radhakrishnan Nagarajan,Jacco Pleumeekers,Vikrant Lal,Mehrdad Ziari,Alan C. Nilsson,Masaki Kato,S. Murthy,Peter W. Evans,Scott Corzine,Matthew L. Mitchell,Parmijit Samra,Mark J. Missey,Scott Demars,Richard P. Schneider,M. Reffle,T. Butrie,Jeffrey T. Rahn,M.F. Van Leeuwen,James Stewart,Damien Lambert,R. Muthiah,Huan-Shang Tsai,J.S. Bostak,Andrew Dentai,Kuang-Tsan Wu,Han Sun,D. Pavinski,Jiaming Zhang,Jie Tang,John D. McNicol,Matthias Kuntz,V. Dominic,Brian Taylor,Randal A. Salvatore,M. Fisher,A. Spannagel,E. Strzelecka,P. Studenkov,Maura Raburn,W. Williams,D. Christini,K. K. Thomson,Shashank Agashe,R. Malendevich,Gilad Goldfarb,Serge Melle,C.H. Joyner,M. Kaufman,S.G. Grubb +50 more
TL;DR: The performance, reliability, and manufacturability of commercial 100-Gb/s dense wavelength-division-multiplexed transmitter and receiver PICs are reviewed as well as next- and future-generation devices (500 Gb/s and beyond).