Influence of four wave mixing on modulation format performance under 100 Gb/s data rate

A. Haider. Jabber., Norashidah Md Din, M. H. Al-Mansoori, Fairuz Abdullah, Hilal A. Fadhl, Noora Salim, Adnan Saher

Research output: Chapter in Book/Report/Conference proceedingConference contribution

2 Citations (Scopus)

Abstract

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 80μm 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 80μm2, 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.

Original languageEnglish
Title of host publicationSCOReD 2012 - 2012 IEEE Student Conference on Research and Development
Pages129-133
Number of pages5
DOIs
Publication statusPublished - 01 Dec 2012
Event2012 IEEE Student Conference on Research and Development, SCOReD 2012 - Penang, Malaysia
Duration: 05 Dec 201206 Dec 2012

Other

Other2012 IEEE Student Conference on Research and Development, SCOReD 2012
CountryMalaysia
CityPenang
Period05/12/1206/12/12

Fingerprint

Four wave mixing
Modulation
Light transmission
Bit error rate
Tuning

All Science Journal Classification (ASJC) codes

  • Electrical and Electronic Engineering

Cite this

Haider. Jabber., A., Md Din, N., Al-Mansoori, M. H., Abdullah, F., Fadhl, H. A., Salim, N., & Saher, A. (2012). Influence of four wave mixing on modulation format performance under 100 Gb/s data rate. In SCOReD 2012 - 2012 IEEE Student Conference on Research and Development (pp. 129-133). [6518625] https://doi.org/10.1109/SCOReD.2012.6518625
Haider. Jabber., A. ; Md Din, Norashidah ; Al-Mansoori, M. H. ; Abdullah, Fairuz ; Fadhl, Hilal A. ; Salim, Noora ; Saher, Adnan. / Influence of four wave mixing on modulation format performance under 100 Gb/s data rate. SCOReD 2012 - 2012 IEEE Student Conference on Research and Development. 2012. pp. 129-133
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title = "Influence of four wave mixing on modulation format performance under 100 Gb/s data rate",
abstract = "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 80μm 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 80μm2, 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.",
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Haider. Jabber., A, Md Din, N, Al-Mansoori, MH, Abdullah, F, Fadhl, HA, Salim, N & Saher, A 2012, Influence of four wave mixing on modulation format performance under 100 Gb/s data rate. in SCOReD 2012 - 2012 IEEE Student Conference on Research and Development., 6518625, pp. 129-133, 2012 IEEE Student Conference on Research and Development, SCOReD 2012, Penang, Malaysia, 05/12/12. https://doi.org/10.1109/SCOReD.2012.6518625

Influence of four wave mixing on modulation format performance under 100 Gb/s data rate. / Haider. Jabber., A.; Md Din, Norashidah; Al-Mansoori, M. H.; Abdullah, Fairuz; Fadhl, Hilal A.; Salim, Noora; Saher, Adnan.

SCOReD 2012 - 2012 IEEE Student Conference on Research and Development. 2012. p. 129-133 6518625.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AU - Haider. Jabber., A.

AU - Md Din, Norashidah

AU - Al-Mansoori, M. H.

AU - Abdullah, Fairuz

AU - Fadhl, Hilal A.

AU - Salim, Noora

AU - Saher, Adnan

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N2 - 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 80μm 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 80μm2, 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.

AB - 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 80μm 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 80μm2, 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.

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DO - 10.1109/SCOReD.2012.6518625

M3 - Conference contribution

SN - 9781467351584

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BT - SCOReD 2012 - 2012 IEEE Student Conference on Research and Development

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Haider. Jabber. A, Md Din N, Al-Mansoori MH, Abdullah F, Fadhl HA, Salim N et al. Influence of four wave mixing on modulation format performance under 100 Gb/s data rate. In SCOReD 2012 - 2012 IEEE Student Conference on Research and Development. 2012. p. 129-133. 6518625 https://doi.org/10.1109/SCOReD.2012.6518625