Paper Info
Title
Hybrid OTDM and WDM for multicore optical communication
Abstract
In this work we propose a high-speed hybrid optical-time-division-multiplexing (OTDM) and wavelength-division-multiplexing (WDM) system that seamlessly generates high bit-rate data (>;200Gbit/s) from a low speed (5Gbit/s) quantum-dot mode locked laser pulse train. The high-speed output data can be generated using electro-optical micro-ring modulators that operate as low as (5Gbit/s). By utilizing time and wavelength domains, the proposed design is a promising solution for high-speed, compact and low-power consumption optical networks on chip.
Year
DOI
Venue
2012
10.1109/IGCC.2012.6322275
IGCC
Keywords
Field
DocType
quantum-dot mode locked laser pulse train,low-power consumption,multicore optical communication,wavelength domains,elecltro-optical modulators,electro-optical micro-ring modulators,power consumption,muticore,laser pulse train,wavelength division multiplexing,wdm,electro-optical microring modulators,quantum dots,silicon nanophotonics,optical networks on chip,mode-locked lasers multiplexing,high-speed output data,low speed,optical network,hybrid otdm,low power,high bit-rate data,integrated optics,high-speed hybrid optical-time-division-multiplexing,optical communication,wavelength-division-multiplexing system,promising solution,network-on-chip,optical interconnects,seimconductor lasers,quantum-dot lasers,proposed design,otdm,silicon,modulation,network on chip
Wavelength-division multiplexing,Optical communication,Network on a chip,Electronic engineering,Laser,Pulse wave,Materials science,Multi-core processor,Wavelength,Power consumption
Conference
ISBN
Citations 
PageRank 
978-1-4673-2153-2
0
0.34
References 
Authors
2
8
Name
Order
Citations
PageRank
Abdelsalam A. Aboketaf100.34
Liang Cao201.69
Donald Adams300.34
Ali W. Elshaari400.34
Stefan F. Preble500.34
Mark T. Crowley600.34
Luke F. Lester700.34
Paul Ampadu828528.55