Influence of four wave mixing on modulation format performance under 100 Gb/s data rate
Four-wave mixing (FWM) is undesirable nonlinear effects that can degrade the optical transmission system. Under high data rate, i.e. 100 Gbps, and ultra-long haul distance, the effects of FWM can limit the system performance significantly. In this paper, we have analyzed and evaluated the system per...
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my.uniten.dspace-294972023-12-28T14:30:16Z Influence of four wave mixing on modulation format performance under 100 Gb/s data rate Haider. Jabber. A. Din N.M. Al-Mansoori M.H. Abdullah F. Fadhl H.A. Salim N. Saher A. 55548856600 9335429400 6505891021 56613644500 55780903700 55780070100 57193229282 Electric power transmission Four wave mixing Optical communication High speed transmission Intensity modulations Modulation formats Non return zeros Nonlinear effect Optical transmission systems Performance tolerances Received power Modulation Four-wave mixing (FWM) is undesirable nonlinear effects that can degrade the optical transmission system. Under high data rate, i.e. 100 Gbps, and ultra-long haul distance, the effects of FWM can limit the system performance significantly. In this paper, we have analyzed and evaluated the system performance tolerance to FWM under the impact of effective area variation. The study was conducted in the presence of normal Non-Return-Zero (NRZ) and Return-Zero (RZ) intensity modulation. In addition, the tuning of effective area on FWM has been done with both types of modulation format. It is found that the RZ modulation introduces minimum FWM power up to -79.5dBm at 80?m 2 effective area, while NRZ offers maximum FWM power less than -74 dBm at the same effective area. In the case of system performance with the effective area variation at 80?m2, the BER is 1.99�10-92 at received power of -5.809 dBm in normal RZ modulation. However, in the presence of NRZ modulation format the BER was found to be less than 8.49-10-21 at -10.77 dBm received powers. Overall, the result indicates that RZ modulation is the suitable choice for high speed transmission distance and optimum bit-error-rate. � 2012 IEEE. Final 2023-12-28T06:30:16Z 2023-12-28T06:30:16Z 2012 Conference paper 10.1109/SCOReD.2012.6518625 2-s2.0-84879680409 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84879680409&doi=10.1109%2fSCOReD.2012.6518625&partnerID=40&md5=341c44a44d0f428751d23bb29317256d https://irepository.uniten.edu.my/handle/123456789/29497 6518625 129 133 Scopus |
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Electric power transmission Four wave mixing Optical communication High speed transmission Intensity modulations Modulation formats Non return zeros Nonlinear effect Optical transmission systems Performance tolerances Received power Modulation |
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Electric power transmission Four wave mixing Optical communication High speed transmission Intensity modulations Modulation formats Non return zeros Nonlinear effect Optical transmission systems Performance tolerances Received power Modulation Haider. Jabber. A. Din N.M. Al-Mansoori M.H. Abdullah F. Fadhl H.A. Salim N. Saher A. Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| description |
Four-wave mixing (FWM) is undesirable nonlinear effects that can degrade the optical transmission system. Under high data rate, i.e. 100 Gbps, and ultra-long haul distance, the effects of FWM can limit the system performance significantly. In this paper, we have analyzed and evaluated the system performance tolerance to FWM under the impact of effective area variation. The study was conducted in the presence of normal Non-Return-Zero (NRZ) and Return-Zero (RZ) intensity modulation. In addition, the tuning of effective area on FWM has been done with both types of modulation format. It is found that the RZ modulation introduces minimum FWM power up to -79.5dBm at 80?m 2 effective area, while NRZ offers maximum FWM power less than -74 dBm at the same effective area. In the case of system performance with the effective area variation at 80?m2, the BER is 1.99�10-92 at received power of -5.809 dBm in normal RZ modulation. However, in the presence of NRZ modulation format the BER was found to be less than 8.49-10-21 at -10.77 dBm received powers. Overall, the result indicates that RZ modulation is the suitable choice for high speed transmission distance and optimum bit-error-rate. � 2012 IEEE. |
| author2 |
55548856600 |
| author_facet |
55548856600 Haider. Jabber. A. Din N.M. Al-Mansoori M.H. Abdullah F. Fadhl H.A. Salim N. Saher A. |
| format |
Conference paper |
| author |
Haider. Jabber. A. Din N.M. Al-Mansoori M.H. Abdullah F. Fadhl H.A. Salim N. Saher A. |
| author_sort |
Haider. Jabber. A. |
| title |
Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| title_short |
Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| title_full |
Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| title_fullStr |
Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| title_full_unstemmed |
Influence of four wave mixing on modulation format performance under 100 Gb/s data rate |
| title_sort |
influence of four wave mixing on modulation format performance under 100 gb/s data rate |
| publishDate |
2023 |
| _version_ |
1806426337051672576 |
| score |
13.211869 |