Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier
The effect of the location of the Erbium-doped fiber (EDF) on the performance of the hybrid dispersion compensation of Raman/EDF amplifier is discussed in this study. Two different configuration set-ups were determined according to the position of the EDF amplifier. The setup in which EDF A is posit...
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my.uniten.dspace-299702023-12-29T15:43:47Z Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier Ali M.H. Abdullah F. Jamaludin M.Z. Al-Mansoori M.H. Al-Mashhadani T.F. Abass A.K. 56510302500 56613644500 57216839721 6505891021 55534252500 35365871700 Erbium doped fiber amplifier Hybrid fiber amplifier Raman fiber amplifier Stimulated Brillouin scattering Bandwidth Erbium doped fiber amplifiers Fiber amplifiers Fibers Photonics Stimulated Brillouin scattering Erbium doped fibers Flat-gain Gain variations Hybrid fiber amplifier Raman fiber amplifiers Raman gain saturation Small signal gain Stimulated Brillouin Scattering (SBS) Amplifiers (electronic) The effect of the location of the Erbium-doped fiber (EDF) on the performance of the hybrid dispersion compensation of Raman/EDF amplifier is discussed in this study. Two different configuration set-ups were determined according to the position of the EDF amplifier. The setup in which EDF A is positioned before is denoted by type A, while type B denotes the setup in which EDFA is positioned after. In these two amplifier configurations, the Raman gain saturation due to the Stimulated Brillouin scattering (SBS) effect is included. Type B shows a better hybrid fiber amplifier (HF A) performance in terms of overall gain, noise figure (NF), and flatness gain profile. A small signal gain of 33 and 35 dB with a flat gain bandwidth of 40 nm is achieved for types A and B, respectively. In addition, type B exhibits a high peak gain of 23 dB, with gain variation of 3 dB along 70 nm bandwidth for large input signal compared with the 17 dB peak gain of type A with gain variation of 4.4 dB along the same bandwidth. � 2013 IEEE. Final 2023-12-29T07:43:47Z 2023-12-29T07:43:47Z 2013 Conference paper 10.1109/ICP.2013.6687109 2-s2.0-84893611636 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84893611636&doi=10.1109%2fICP.2013.6687109&partnerID=40&md5=47cadc1d4d779b42df1d0aa5a31975d0 https://irepository.uniten.edu.my/handle/123456789/29970 6687109 187 189 Scopus |
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Erbium doped fiber amplifier Hybrid fiber amplifier Raman fiber amplifier Stimulated Brillouin scattering Bandwidth Erbium doped fiber amplifiers Fiber amplifiers Fibers Photonics Stimulated Brillouin scattering Erbium doped fibers Flat-gain Gain variations Hybrid fiber amplifier Raman fiber amplifiers Raman gain saturation Small signal gain Stimulated Brillouin Scattering (SBS) Amplifiers (electronic) |
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Erbium doped fiber amplifier Hybrid fiber amplifier Raman fiber amplifier Stimulated Brillouin scattering Bandwidth Erbium doped fiber amplifiers Fiber amplifiers Fibers Photonics Stimulated Brillouin scattering Erbium doped fibers Flat-gain Gain variations Hybrid fiber amplifier Raman fiber amplifiers Raman gain saturation Small signal gain Stimulated Brillouin Scattering (SBS) Amplifiers (electronic) Ali M.H. Abdullah F. Jamaludin M.Z. Al-Mansoori M.H. Al-Mashhadani T.F. Abass A.K. Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| description |
The effect of the location of the Erbium-doped fiber (EDF) on the performance of the hybrid dispersion compensation of Raman/EDF amplifier is discussed in this study. Two different configuration set-ups were determined according to the position of the EDF amplifier. The setup in which EDF A is positioned before is denoted by type A, while type B denotes the setup in which EDFA is positioned after. In these two amplifier configurations, the Raman gain saturation due to the Stimulated Brillouin scattering (SBS) effect is included. Type B shows a better hybrid fiber amplifier (HF A) performance in terms of overall gain, noise figure (NF), and flatness gain profile. A small signal gain of 33 and 35 dB with a flat gain bandwidth of 40 nm is achieved for types A and B, respectively. In addition, type B exhibits a high peak gain of 23 dB, with gain variation of 3 dB along 70 nm bandwidth for large input signal compared with the 17 dB peak gain of type A with gain variation of 4.4 dB along the same bandwidth. � 2013 IEEE. |
| author2 |
56510302500 |
| author_facet |
56510302500 Ali M.H. Abdullah F. Jamaludin M.Z. Al-Mansoori M.H. Al-Mashhadani T.F. Abass A.K. |
| format |
Conference paper |
| author |
Ali M.H. Abdullah F. Jamaludin M.Z. Al-Mansoori M.H. Al-Mashhadani T.F. Abass A.K. |
| author_sort |
Ali M.H. |
| title |
Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| title_short |
Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| title_full |
Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| title_fullStr |
Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| title_full_unstemmed |
Effect of EDF position on the performance of hybrid dispersion-compensating Raman/EDF amplifier |
| title_sort |
effect of edf position on the performance of hybrid dispersion-compensating raman/edf amplifier |
| publishDate |
2023 |
| _version_ |
1806426362797359104 |
| score |
13.188404 |