Silicon-organic hybrid (SOH) devices and their use in comb-based communication systems Article Swipe
Related Concepts
Wavelength-division multiplexing
Photonics
Computer science
Multiplexing
Silicon photonics
Scalability
Transmission (telecommunications)
Optoelectronics
Silicon
Electronic engineering
Materials science
Data transmission
Optical performance monitoring
Wavelength
Telecommunications
Computer network
Engineering
Database
C. Koos
,
W. Freude
,
Larry R. Dalton
,
Tobias J. Kippenberg
,
Liam P. Barry
,
A. Ramdane
,
F. Lelarge
,
S. Wolf
,
Heiner Zwickel
,
M. Lauermann
,
C. Weimann
,
Wladick Hartmann
,
J. N. Kemal
,
Pablo Marin-Palomo
,
P. Trocha
,
J. Pfeifle
,
Tobias Herr
,
Victor Brasch
,
Regan Watts
,
Delwin L. Elder
,
A. Martinez
,
Vivek Panapakkam
,
N. Chimot
·
YOU?
·
· 2016
· Open Access
·
· DOI: https://doi.org/10.1109/group4.2016.7739133
· OA: W2552153296
YOU?
·
· 2016
· Open Access
·
· DOI: https://doi.org/10.1109/group4.2016.7739133
· OA: W2552153296
Advanced wavelength-division multiplex-ing (WDM) requires both efficient multi-wavelength light sources to generate optical carriers and highly scalable photonic-electronic interfaces to encode data on these carriers. In this paper, we give an overview on our recent progress regarding silicon-organic hy-brid (SOH) integration and comb-based WDM transmission.
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