All-optical flexible 20-Gb/s logic and gate based on cascaded sum-
and difference-frequency generation in a periodically poled lithium
niobate waveguide is proposed and experimentally demonstrated. The
theoretical analyses further indicate that 40-, 80-, and 160-Gb/s
ultrahigh-speed logic and operations can potentially be performed.
Moreover, it is expected that the and output can be tuned in a wide
wavelength range (67 nm) with slight fluctuation of the Q-factor
and extinction ratio.
%0 Journal Article
%1 Wang2008
%A Wang, Jian
%A Sun, Junqiang
%A Sun, Qizhen
%A Wang, Dalin
%A Zhang, Xinliang
%A Huang, Dexiu
%A Fejer, M. M.
%B Photonics Technology Letters, IEEE
%D 2008
%K AND LiNbO<sub>3</sub> Q-factor compounds conversion frequency gate gates lithium logic materials optical waveguides
%P 211-213--
%T PPLN-Based Flexible Optical Logic <emphasis emphasistype="smcaps">and</emphasis>
Gate
%V 20
%X All-optical flexible 20-Gb/s logic and gate based on cascaded sum-
and difference-frequency generation in a periodically poled lithium
niobate waveguide is proposed and experimentally demonstrated. The
theoretical analyses further indicate that 40-, 80-, and 160-Gb/s
ultrahigh-speed logic and operations can potentially be performed.
Moreover, it is expected that the and output can be tuned in a wide
wavelength range (67 nm) with slight fluctuation of the Q-factor
and extinction ratio.
@article{Wang2008,
abstract = {All-optical flexible 20-Gb/s logic and gate based on cascaded sum-
and difference-frequency generation in a periodically poled lithium
niobate waveguide is proposed and experimentally demonstrated. The
theoretical analyses further indicate that 40-, 80-, and 160-Gb/s
ultrahigh-speed logic and operations can potentially be performed.
Moreover, it is expected that the and output can be tuned in a wide
wavelength range (67 nm) with slight fluctuation of the Q-factor
and extinction ratio.},
added-at = {2009-11-19T14:40:48.000+0100},
author = {Wang, Jian and Sun, Junqiang and Sun, Qizhen and Wang, Dalin and Zhang, Xinliang and Huang, Dexiu and Fejer, M. M.},
biburl = {https://www.bibsonomy.org/bibtex/2cf180e77b57a47babf05aabd501bdc8d/photonics},
booktitle = {Photonics Technology Letters, IEEE},
interhash = {c3562800b41f0147a23c0a52465ab0fb},
intrahash = {cf180e77b57a47babf05aabd501bdc8d},
issn = {1041-1135},
keywords = {AND LiNbO<sub>3</sub> Q-factor compounds conversion frequency gate gates lithium logic materials optical waveguides},
owner = {gianluca},
pages = {211-213--},
refid = {36},
timestamp = {2009-11-19T14:41:07.000+0100},
title = {PPLN-Based Flexible Optical Logic <emphasis emphasistype="smcaps">and</emphasis>
Gate},
volume = 20,
year = 2008
}