Abdul-Sahib, Y. (2009). Design WDM using Pump Coupler Counter-Propogating & uniform Bragg Grating. , 0(3), 71-97.
Yosra Abdul-Sahib. "Design WDM using Pump Coupler Counter-Propogating & uniform Bragg Grating". , 0, 3, 2009, 71-97.
Abdul-Sahib, Y. (2009). 'Design WDM using Pump Coupler Counter-Propogating & uniform Bragg Grating', , 0(3), pp. 71-97.
Abdul-Sahib, Y. Design WDM using Pump Coupler Counter-Propogating & uniform Bragg Grating. , 2009; 0(3): 71-97.

Design WDM using Pump Coupler Counter-Propogating & uniform Bragg Grating

Journal of College of Education
Article 1, Volume 0, Issue 3, 2017, Pages 71-97
Author
Yosra Abdul-Sahib
Abstract
b-wsturar"ctt.ngth
Division Multiplexing (woM)__i: another way of
increasing tf,e bandwidth of a given system . Within this system,
various iavelengths are transmitted together on one optical fiber,
without any interference.
with all wDM techniques, the required characteristics are high
selectivity (the ability to separate two adjacent channels), high outof-
band iejection in order to guarantee a low cross-talk between
channels. Fiber Bragg gratings (FBGs), arrayed waveguide gratings
(AWGs), and cascaiid-Mach-Zehnder filters are excellent devices
ior filtering purposes. ttris paper presents a design idea to build a
WOV1 a"riuitipi.*., .o*ponant using Fiber Bragg Grating (FBG)
and Pump Coupler Counter Propagation. The results obtained reveal
that the suggested design is powerful in achieving accurate
Jemultiplexei- design. W; aim to demonstrate the high level
u"ruru"|, the time ind cost saving from using the latest state of art
software. The perforrnance was measured using quality factor (Q.
Eacto4 and 6it error rate (BER), available via visualizers
Component Library, included in Optisystem simulator'
Keyrvords- Fiber n.ugg grating, uniform fiber Bragg grating filter,
pump coupler counteipropagation, Ideal dispersion compensation.
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