Startseite Investigation of Cross-Phase Modulation-Induced Crosstalk with Sub-Planck Higher-Order Dispersion Parameters in Optical Transmission Systems
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Investigation of Cross-Phase Modulation-Induced Crosstalk with Sub-Planck Higher-Order Dispersion Parameters in Optical Transmission Systems

  • Richa Bhatia EMAIL logo
Veröffentlicht/Copyright: 29. August 2018
Veröffentlichen auch Sie bei De Gruyter Brill
Manuskript einreichen Informationen für Autor*innen
Journal of Optical Communications
Aus der Zeitschrift Journal of Optical Communications Band 42 Heft 3

Abstract

Cross-phase modulation (XPM) is one of the major limiting effects in wavelength division multiplexed (WDM) optical transmission systems. This paper mathematically investigates the impact of XPM-induced crosstalk with second (2OD), third (3OD) and combination of sub-planck higher-order dispersion (HOD) parameters for WDM systems at different combinations of effective core areas, optical powers, modulating frequencies and dispersion values. It has been observed that XPM-induced crosstalk increases with increase in optical powers, modulating frequencies and dispersion values, but it reduces for higher effective core areas. The results for 2OD, 3OD and combination of dispersion parameters up to eighth order (8OD) have been reported. For instance, with a transmission length of 50 km for different values of optical power ranging from 0.1 mW to 2 mW, crosstalk due to XPM was observed to vary from (−75 to −44 dB), (−172 to −144 dB) and (−275 to −250 dB) in the presence of 2OD, 3OD and n=48nOD combination, respectively. On the basis of analysis, one can select the appropriate frequency as well as the value of dispersion or type of fibre to achieve minimum crosstalk.

Keywords: higher-order dispersion; single-mode fibre; cross-phase modulation (XPM); crosstalk; optical power
PACS: 42.79.Sz

References

1. Agrawal GP. Nonlinear Fiber Optics, Academic Press, India, 2008.Suche in Google Scholar

2. Bhatia R, Sharma AK, Saxena J. Performance evaluation of Nx80-Gb/s DWDM optical system over SSMF for CSRZ-DPSK and RZ-DPSK signals with optimized alternate polarization. J Opt Comm. De-Gruyter. June 2015;36:155–59.10.1515/joc-2014-0052Suche in Google Scholar

3. Bhatia R, Upadhyay V. PAPR reduction in OFDM system using hybrid OICF and phase rotation scheme. J Opt Comm. De-Gruyter. June 2017. DOI:10.1515/joc-2017-0034.Suche in Google Scholar

4. Singh S, Kaler RS. Investigation of hybrid optical amplifiers for dense wavelength division multiplexed system with reduced spacing at higher bit rates. Fiber Integr Opt. 2012;31:208–20.10.1080/01468030.2012.666818Suche in Google Scholar

5. Singh S, Kaler RS. Influence of the word length and input power on nonlinear crosstalk induced by hybrid optical amplifiers. Opt Fiber Technol. 2013;19:428–31.10.1016/j.yofte.2013.05.009Suche in Google Scholar

6. Malhotra JS, Kumar M, Sharma AK. Performance evaluation and PMD tolerance of PM-QPSK at 100 Gbit/s in dispersion managed 64 channel long haul DWDM optical communication link. J Opt Comm. De-Gruyter. 2013;34: 351–56.10.1515/joc-2013-0030Suche in Google Scholar

7. Chiang TK, Kagi N, Fong TK, Marhic ME. Cross-phase modulation in dispersive fibers: theoreticaland experimental investigation of the impact of modulation frequency. IEEE Photon Technol Lett. 1994;6:733–36.10.1109/68.300178Suche in Google Scholar

8. Kagi N, Chiang TK, Fong TK. Frequency dependence of cross phase modulation in amplified optical fiber links. Electron Lett. 1994;30:1878–79.10.1049/el:19941278Suche in Google Scholar

9. Cartaxo AVT. Cross-phase modulation in intensity modulation–direct detection WDM systems with multiple optical amplifiers and dispersion compensators. IEEE J Lightwave Technol. 1999;17:178–90.10.1109/50.744218Suche in Google Scholar

10. Yang FS, Marhic ME, Kazovsky LG. Nonlinear crosstalk and two countermeasures in SCM-WDM optical communication systems. IEEE J Lightwave Technol. 2000;18:512–20.10.1109/50.838125Suche in Google Scholar

11. Xu B, Brandt-Pearce M. Comparison of FWM and XPM induced crosstalk using Volterra series transfer function method. IEEE J Lightwave Tech. 2003;21:40–53.10.1109/JLT.2002.806360Suche in Google Scholar

12. Chen WH, Way WI. Multichannel single-side-band SCM/DWDM transmission systems. IEEE J Lightwave Tech. 2004;22:1679–93.10.1109/JLT.2004.829210Suche in Google Scholar

13. Keang-Po H, His-Cheng W. Cross-phase modulation-induced crosstalk for RZ-DPSK signals in dispersive transmission systems. IEEE J Lightwave Tech. 2006;24:396–403.10.1109/JLT.2005.860160Suche in Google Scholar

14. Arya SK, Sharma AK, Agarwala RA. Impact of 2OD and 3OD on SRS and XPM-induced crosstalk in SCM-WDM optical transmission link. Optik-Int J Light Electron Optics. 2009;120:364–69.10.1016/j.ijleo.2007.10.004Suche in Google Scholar

15. Bhatia R, Sharma AK, Saxena J. Improved analysis of four wave mixing with sub-plank higher-order dispersion parameters in optical communication systems. Optik-Int J Light Electron Optics. 2016;127:9474–78.10.1016/j.ijleo.2016.07.035Suche in Google Scholar

Received: 2018-07-01
Accepted: 2018-08-13
Published Online: 2018-08-29
Published in Print: 2021-07-27

© 2018 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Amplifiers
  3. Performance Analysis of FBG WDM System using Different Optical Amplifiers
  4. Devices
  5. Performance Evaluation of Two Dimensional Photonic Crystal Based All Optical AND/OR Logic Gates
  6. A Radio over Fiber (RoF) Based Single Sideband Modulated Passive Optical Network (PON) Using Mach Zender Modulator Based on Different Electrical Phase Shifts
  7. Analysis of Hybrid Buffer Based Optical Data Center Switch
  8. An Optical Majority Gate Using Photonic Crystal Based Nonlinear Resonant Cavity
  9. Analysis of AWG-Based Optical Data Center Switches
  10. Fibers
  11. Optimization of Concentration Quenching on Erbium Ytterbium Doped Wave Guide EYDWA Using for Extended Reach up to 160 Km of Hybrid Gigabit Passive Optical Networks and Free Space Optical Technologie “GPON-FSO”
  12. Networks
  13. On the Cost Minimization in Space Division Multiplexing Based Elastic Optical Networks
  14. Systems
  15. Incorporating SDC Module for ISI Compensation for a Long-Haul Co-OFDM System
  16. Performance Analysis of Free Space Optics and Inter-Satellite Communicating System Using Multiplexing Techniques – A Review
  17. To Overcome the Effects of Self-Phase Modulation in Single-Tone RoF System by Employing SSP Compensation Technique
  18. Analysis of Optical Wireless Communication Systems
  19. Investigation of Cross-Phase Modulation-Induced Crosstalk with Sub-Planck Higher-Order Dispersion Parameters in Optical Transmission Systems
  20. Performances Analysis of Novel Proposed Code for SAC-OCDMA System
  21. Design and Implementation of OFDM System using QPSK & QAM
  22. To Mitigate the Effect of Cross-Phase Modulation by Employing PC-DCF Technique in Multi-Tone RoF System
  23. Mitigating the Effects of Non-Linear Distortion Using Polarizers in Microwave Photonic Link
  24. Theory
  25. Improving Performance of Optical Networks by Using FRPI Algorithm
  26. Performance Evaluation of Novel Dynamic Data Replication Algorithm under Optical Burst Switching
  27. Performance Analysis of Relay Assisted Multihop Coherant OFDM System over Malaga Distribution with Pointing Errors
https://doi.org/10.1515/joc-2018-0117
Schlagwörter für diesen Artikel
higher-order dispersion; single-mode fibre; cross-phase modulation (XPM); crosstalk; optical power

Artikel in diesem Heft

  1. Frontmatter
  2. Amplifiers
  3. Performance Analysis of FBG WDM System using Different Optical Amplifiers
  4. Devices
  5. Performance Evaluation of Two Dimensional Photonic Crystal Based All Optical AND/OR Logic Gates
  6. A Radio over Fiber (RoF) Based Single Sideband Modulated Passive Optical Network (PON) Using Mach Zender Modulator Based on Different Electrical Phase Shifts
  7. Analysis of Hybrid Buffer Based Optical Data Center Switch
  8. An Optical Majority Gate Using Photonic Crystal Based Nonlinear Resonant Cavity
  9. Analysis of AWG-Based Optical Data Center Switches
  10. Fibers
  11. Optimization of Concentration Quenching on Erbium Ytterbium Doped Wave Guide EYDWA Using for Extended Reach up to 160 Km of Hybrid Gigabit Passive Optical Networks and Free Space Optical Technologie “GPON-FSO”
  12. Networks
  13. On the Cost Minimization in Space Division Multiplexing Based Elastic Optical Networks
  14. Systems
  15. Incorporating SDC Module for ISI Compensation for a Long-Haul Co-OFDM System
  16. Performance Analysis of Free Space Optics and Inter-Satellite Communicating System Using Multiplexing Techniques – A Review
  17. To Overcome the Effects of Self-Phase Modulation in Single-Tone RoF System by Employing SSP Compensation Technique
  18. Analysis of Optical Wireless Communication Systems
  19. Investigation of Cross-Phase Modulation-Induced Crosstalk with Sub-Planck Higher-Order Dispersion Parameters in Optical Transmission Systems
  20. Performances Analysis of Novel Proposed Code for SAC-OCDMA System
  21. Design and Implementation of OFDM System using QPSK & QAM
  22. To Mitigate the Effect of Cross-Phase Modulation by Employing PC-DCF Technique in Multi-Tone RoF System
  23. Mitigating the Effects of Non-Linear Distortion Using Polarizers in Microwave Photonic Link
  24. Theory
  25. Improving Performance of Optical Networks by Using FRPI Algorithm
  26. Performance Evaluation of Novel Dynamic Data Replication Algorithm under Optical Burst Switching
  27. Performance Analysis of Relay Assisted Multihop Coherant OFDM System over Malaga Distribution with Pointing Errors
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 30.10.2025 von https://www.degruyterbrill.com/document/doi/10.1515/joc-2018-0117/html?lang=de
Button zum nach oben scrollen