TY - JOUR
AU - Ahmed, Kawsar
AB - AbstractThis study created a 13 Gb/s transmission speed per 300 channel dense wavelength division multiplexing system based on hybrid optical fiber amplifiers and filter techniques to enhance signal gain. The filter techniques used here included a hybrid optical amplifier, a gain flattening filter (GFF), a Fabry–Perot filter, a fiber Bragg grating (FBG), and glass composition technique. The techniques were combined to optimize signal gain as follows: the study began with an erbium-doped fiber amplifier (EDFA), added a Raman amplifier, added GFF, added fiber Bragg grating, added glass composition, and finally achieved a hybrid-modified model after adding Fabry–Perot filter. The signal gain was optimized with the hybrid-modified model via the different operating parameters of the EDFA. The proposed model also showed a better performance (30–40 dB greater) than the previous model (Mahran O, Aly MH. Performance characteristics of dual-pumped hybrid EDFA/Raman optical amplifier. OSA – Applied Optics Jan 2016;55:22–6) after changing the values of the signal wavelength, the EDFA, and the length of the Raman amplifier.
TI - Simulation study of signal gain optimization based on hybrid composition techniques for high-speed optically dense multiplexed systems
JF - Journal of Optical Communications
DO - 10.1515/joc-2020-0150
DA - 2024-06-01
UR - https://www.deepdyve.com/lp/de-gruyter/simulation-study-of-signal-gain-optimization-based-on-hybrid-GluZuo3Jf4
SP - s149
EP - s155
VL - 45
IS - s1
DP - DeepDyve
ER -