The recent progress is reviewed and future prospects of silicon photonics
in next generation communication and computing systems are probed.
Leveraging the many-billion-dollar complementary metal-oxide-semiconductor
(CMOS) industry, silicon photonics has promising prospects for realising
very large-scale electronic and photonic integrated circuits with
thousands of optical components and millions of transistors in the
future to support very demanding integrated systems needs of next
generation computing and communications. There are also a number
of significant challenges in fulfilling such prospects.
Yoo2009 future prospects of si photonics in nextgen communication and computing.pdf:si photonics\\Yoo2009 future prospects of si photonics in nextgen communication and computing.pdf:PDF
%0 Journal Article
%1 Yoo2009
%A Yoo, S.J.B.
%D 2009
%J Electronics Letters
%K circuits circuits, communication computing computingcommunication electronic equipment, integrated large optical optoelectronics, photonic photonics, scale silicon system, systems, very
%N 12
%P -
%R 10.1049/el.2009.1304
%T Future prospects of silicon photonics in next generation communication
and computing systems
%V 45
%X The recent progress is reviewed and future prospects of silicon photonics
in next generation communication and computing systems are probed.
Leveraging the many-billion-dollar complementary metal-oxide-semiconductor
(CMOS) industry, silicon photonics has promising prospects for realising
very large-scale electronic and photonic integrated circuits with
thousands of optical components and millions of transistors in the
future to support very demanding integrated systems needs of next
generation computing and communications. There are also a number
of significant challenges in fulfilling such prospects.
@article{Yoo2009,
abstract = {The recent progress is reviewed and future prospects of silicon photonics
in next generation communication and computing systems are probed.
Leveraging the many-billion-dollar complementary metal-oxide-semiconductor
(CMOS) industry, silicon photonics has promising prospects for realising
very large-scale electronic and photonic integrated circuits with
thousands of optical components and millions of transistors in the
future to support very demanding integrated systems needs of next
generation computing and communications. There are also a number
of significant challenges in fulfilling such prospects.},
added-at = {2009-09-04T22:06:29.000+0200},
author = {Yoo, S.J.B.},
biburl = {https://www.bibsonomy.org/bibtex/2452956ee932e5068ef9a44bec44b9d72/scotbrad},
doi = {10.1049/el.2009.1304},
file = {[Yoo2009] future prospects of si photonics in nextgen communication and computing.pdf:si photonics\\[Yoo2009] future prospects of si photonics in nextgen communication and computing.pdf:PDF},
interhash = {7c26a4319c447617c4fd4f98429bcc57},
intrahash = {452956ee932e5068ef9a44bec44b9d72},
issn = {0013-5194},
journal = {Electronics Letters},
keywords = {circuits circuits, communication computing computingcommunication electronic equipment, integrated large optical optoelectronics, photonic photonics, scale silicon system, systems, very},
month = {4},
number = 12,
pages = {-},
timestamp = {2009-09-04T22:06:41.000+0200},
title = {Future prospects of silicon photonics in next generation communication
and computing systems},
volume = 45,
year = 2009
}