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Optics Express

Optics Express

  • Editor: C. Martijn de Sterke
  • Vol. 20, Iss. 26 — Dec. 10, 2012
  • pp: B452–B461

Mitigation of Rayleigh noise and dispersion in REAM-based WDM-PON using spectrum-shaping codes

Qi Guo and An V. Tran  »View Author Affiliations


Optics Express, Vol. 20, Issue 26, pp. B452-B461 (2012)
http://dx.doi.org/10.1364/OE.20.00B452


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Abstract

This paper presents a novel technique capable of Rayleigh backscattering (RB) mitigation and chromatic dispersion (CD) compensation for wavelength-division-multiplexed passive optical network (WDM-PON). The reduction of the interference caused by RB and CD in the uplink based on reflective electro-absorption modulator (REAM) is realized by the proposed correlative level (CL) coding. We investigate the RB-induced interferometric crosstalk for different fiber lengths. 10 Gb/s and 20 Gb/s transmissions over 70 km and 35 km fiber are demonstrated using the CL codes of dicode and modified duobinary (MD), respectively. Significant improvement in system resilience to backscattered seed light is verified for both dicode and MD coding. MD-coded signal also exhibits considerable robustness against the effects of CD.

© 2012 OSA

OCIS Codes
(060.0060) Fiber optics and optical communications : Fiber optics and optical communications
(060.4250) Fiber optics and optical communications : Networks
(010.1350) Atmospheric and oceanic optics : Backscattering

ToC Category:
Access Networks and LAN

History
Original Manuscript: September 18, 2012
Revised Manuscript: November 2, 2012
Manuscript Accepted: November 8, 2012
Published: December 3, 2012

Virtual Issues
European Conference on Optical Communication 2012 (2012) Optics Express

Citation
Qi Guo and An V. Tran, "Mitigation of Rayleigh noise and dispersion in REAM-based WDM-PON using spectrum-shaping codes," Opt. Express 20, B452-B461 (2012)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-20-26-B452


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References

  1. P. Healey, P. Townsend, C. Ford, L. Johnston, P. Townley, I. Lealman, L. Rivers, S. Perrin, and R. Moore, “Spectral slicing WDM-PON using wavelength-seeded reflective SOAs,” Electron. Lett.37(19), 1181–1182 (2001). [CrossRef]
  2. K. M. Choi, J. S. Baik, and C. H. Lee, “Broad-band light source using mutually injected Fabry-Perot laser diodes for WDM-PON,” IEEE Photon. Technol. Lett.17(12), 2529–2531 (2005). [CrossRef]
  3. E. K. MacHale, G. Talli, P. D. Townsend, A. Borghesani, I. Lealman, D. G. Moodie, and D. W. Smith, “Extended-reach PON employing 10Gbits/s integrated reflective EAM-SOA,” Proc. European Conference on Optical Communication (ECOC), paper Th.2.F.1 (2008).
  4. S. J. Park, G. Y. Kim, T. Park, E. H. Choi, S. H. Oh, Y. S. Baek, K. R. Oh, Y. J. Park, J. U. Shin, and H. K. Sung, “WDM-PON system based on the laser light injected reflective semiconductor optical amplifier,” Proc. European Conference on Optical Communication (ECOC), paper We3.3.6 (2005).
  5. C. Arellano, C. Bock, J. Prat, and K. D. Langer, “RSOA-based Optical Network Units for WDM-PON,” Proc. Optical Fiber Communication (OFC) Conference, paper OTuC1 (2006).
  6. W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, “Bidirectional WDM-PON based on gain-saturated reflective semiconductor optical amplifiers,” IEEE Photon. Technol. Lett.17(11), 2460–2462 (2005). [CrossRef]
  7. Q. Guo and A. V. Tran, “Demonstration of 40-Gb/s WDM-PON system using SOA-REAM and equalization,” IEEE Photon. Technol. Lett.24(11), 951–953 (2012). [CrossRef]
  8. H. S. Kim, D. C. Kim, K. S. Kim, B. S. Choi, and O. K. Kwon, “10.7 Gb/s reflective electroabsorption modulator monolithically integrated with semiconductor optical amplifier for colorless WDM-PON,” Opt. Express18(22), 23324–23330 (2010). [CrossRef] [PubMed]
  9. G. Girault, L. Bramerie, O. Vaudel, S. Lobo, P. Besnard, M. Joindot, J.-C. Simon, C. Kazmierski, N. Dupuis, A. Garreau, Z. Belfqih, and P. Chanclou, “10 Gbit/s PON demonstration using a REAM-SOA in a bidirectional fiber configuration up to 25 km SMF,” Proc. European Conference on Optical Communication (ECOC), paper P.6.08 (2008).
  10. S. Y. Kim, S. B. Jun, Y. Takushima, E. S. Son, and Y. C. Chung, “Enhanced performance of RSOA-based. WDMPON by using Manchester coding,” J. Opt. Netw.6(6), 624–630 (2007). [CrossRef]
  11. M. Presi, A. Chiuchiarelli, R. Proietti, P. Choudhury, G. Contestabile, and E. Ciaramella, “Single Feeder Bidirectional WDM-PON with Enhanced Resilience to Rayleigh-Backscattering,” Proc. Optical Fiber Communication (OFC) Conference, paper OThG2 (2010).
  12. K. Y. Cho, A. Murakami, Y. J. Lee, A. Agata, Y. Takushima, and Y. C. Chung, “Demonstration of RSOA-based WDM PON operating at symmetric rate of 1.25 Gb/s with high reflection tolerance,” Proc. Optical Fiber Communication (OFC) Conference, paper OTuH4 (2008).
  13. M. Omella, V. Polo, J. Lazaro, B. Schrenk, and J. Prat, “10 Gb/s RSOA transmission by direct duobinary modulation,” Proc. European Conference on Optical Communication (ECOC), paper Tu.3.E.4 (2008).
  14. K. Y. Cho, Y. Takushima, and Y. C. Chung, “Enhanced chromatic dispersion tolerance of 11 Gbit/s RSOA-based WDM PON using 4-ary PAM signal,” Electron. Lett.46(22), 1510–1511 (2010). [CrossRef]
  15. Q. Guo and A. V. Tran, “Mitigation of Rayleigh Noise and Dispersion in REAM-based WDM-PON using Partial-Response Signaling” Proc. European Conference on Optical Communication (ECOC), paper We.2.B.4 (2012).
  16. Q. Guo and A. V. Tran, “Level coding technique for a wavelength-division-multiplexed optical access system using a remodulation scheme,” Opt. Lett.37(19), 4137–4139 (2012). [CrossRef] [PubMed]
  17. Q. Guo and A. Tran, “40 Gb/s Operation of SOA-REAM in Single-Feeder WDM-PON [Invited],” J. Opt. Commun. Netw.4(11), B77–B84 (2012). [CrossRef]
  18. J. Xu, M. Li, and L. K. Chen, “Rayleigh Noise Reduction in 10-Gb/s Carrier-Distributed WDM-PONs Using In-Band Optical Filtering,” J. Lightwave Technol.29(24), 3632–3639 (2011). [CrossRef]
  19. C. Arellano, K. Langer, and J. Prat, “Reflections and multiple Rayleigh backscattering in WDM single-fiber loopback access networks,” J. Lightwave Technol.27(1), 12–18 (2009). [CrossRef]
  20. F. Devaux, Y. Sorel, and J. F. Kerdiles, “Simple measurement of fiber dispersion and of chirp parameter of intensity modulated light emitter,” J. Lightwave Technol.11(12), 1937–1940 (1993). [CrossRef]
  21. R. K. Staubli and P. Gysel, “Statistical Properties of Single-Mode Fiber Rayleigh Backscattered Intensity and Resulting Detector Current,” IEEE Trans. Commun.40(6), 1091–1097 (1992). [CrossRef]
  22. P. Kabal and S. Pasupathy, “Partial response signaling,” IEEE. Trans. Commun. COM23(9), 921–934 (1975). [CrossRef]
  23. A. Lender, “Correlative digital communication techniques,” IEEE Trans. Commun. Technol. COM12(4), 128–135 (1964). [CrossRef]
  24. X. Gu and L. C. Blank, “10 Gb/s unrepeatered three-level optical transmission over 100 km of standard fiber,” Electron. Lett.29(25), 2209–2211 (1993). [CrossRef]
  25. K. Yonenaga and S. Kuwano, “Dispersion-tolerant optical transmission system using duobinary transmitter and binary receiver,” J. Lightwave Technol.15(8), 1530–1537 (1997). [CrossRef]

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