Home Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers
Article
Licensed
Unlicensed Requires Authentication

Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers

  • Ramachandran Thandaiah Prabu EMAIL logo , Judy Simon , Nellore Kapileswar , Dasari Naga Vinod , Phani Kumar Polasi and Hazem Hazem Ali Emam EMAIL logo
Published/Copyright: March 19, 2024
Become an author with De Gruyter Brill
Submit Manuscript Author Information
Journal of Optical Communications
From the journal Journal of Optical Communications Volume 46 Issue 2

Abstract

This study has clarified the four-wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multipumped Raman amplifiers. The employed spectral width is applied in the fiber core from 1450 nm to 1650 nm through the subgroups in the fiber link. The optical loss and fiber dispersion effects are demonstrated with the spectral wavelength band with different pumping levels. The optical loss is clarified in relation to different laser pumping levels and different number of links per fiber core channel at 1550 nm. As well as the dispersion factor is demonstrated in relation to different laser pumping levels and different number of links per fiber core channel at 1300 nm. Extended fiber length, amplifier gain, and repeater spacing are clarified with different laser pumping levels and different number of links variations per fiber core channel at 1550 nm. The data rate transmission is studied against different laser pumping levels and different number of links variations per fiber core channel at both 1550 nm and 1300 nm. The optimum fiber coupled power is demonstrated against different laser pumping levels and different number of links variations per fiber core channel at 1550 nm. The fiber coupling efficiency is studied and demonstrated against different laser pumping levels and different number of links variations per fiber core channel at 1550 nm.

Keywords: multipumped; spectral spacing; ASE; central wavelength
Corresponding authors: Ramachandran Thandaiah Prabu, Department of ECE, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences, SIMATS, Saveetha University, Chennai, Tamilnadu, India, E-mail: ; and Hazem Hazem Ali Emam, Light Institute of Engineering, Giza, Egypt, E-mail:

  1. Research ethics: Not applicable.

  2. Author contributions: The authors have accepted responsibility for the entire content of this manuscript and approved its submission.

  3. Competing interests: The authors state no conflict of interest.

  4. Research funding: None declared.

  5. Data availability: Not applicable.

References

1. Xue, L, Yan-He, L. Optimal bandwidth for distributed multi-pump Raman amplifier based on hybrid genetic algorithm. Chin Phys Lett 2004;21:84–6.10.1088/0256-307X/21/1/026Search in Google Scholar

2. Xu, Z, Roltwitt, K, Peucheret, C, Jeppesen, D. Optimization of pumping schemes for 160 Gb/s single-channel Raman amplified systems. IEEE Photonics Technol Lett 2004;16:329–31. https://doi.org/10.1109/lpt.2003.820477.Search in Google Scholar

3. Baoutealler, JC, Leng, L, Headley, C. Pump-pump four wave mixing in distributed Raman amplified systems. J Lightwave Technol 2004;22:723–31.10.1109/JLT.2004.824459Search in Google Scholar

4. Arora, G, Dewra, S. DWDM transmission using hybrid optical amplifiers. Int J Adv Res Commun Eng 2014;3:6174–7.Search in Google Scholar

5. Han, Q, Ning, J, Chen, Z. Novel shooting algorithm for highly efficient analysis of fiber Raman amplifiers. J Lightwave Technol 2006;24:4946–55.10.1109/JLT.2006.871008Search in Google Scholar

6. Hu, J, Marks, B, Menyuk, C. Flat-gain fiber Raman amplifiers using equally spaced pumps. J Lightwave Technol 2004;22:1519–22. https://doi.org/10.1109/jlt.2004.829187.Search in Google Scholar

7. Raghavendra, MV, Vara Prasad, PLH. Estimation of optical link length for multi haul applications. Int J Eng Sci Technol 2010;2:1485–91.Search in Google Scholar

8. Grosz, DF, Agarwal, A, Banerjee, S, Maywar, DN, Kung, AP. All-Raman ultra-long-haul single-wideband DWDM transmission systems with OADM capability. J Lightwave Technol 2004;22:423–32. https://doi.org/10.1109/jlt.2004.824461.Search in Google Scholar

9. Peiris, S, Madanopoudos, N, Antoniades, NA. Performane analysis of a hybrid Raman optical parametric amplifier in the O- and E-bands for CWMPONs. Photonics 2014;17:1473–87.Search in Google Scholar

10. Bala Subbanna, B, Divya Meenakshi, LP. The role of amplifiers in optical fiber communication. Int J Eng Adv Technol 2013;2:730–3.Search in Google Scholar

11. Bromage, J. Raman amplification for fiber communications systems. J Lightwave Technol 2004;22:79–93. https://doi.org/10.1109/jlt.2003.822828.Search in Google Scholar

12. Kolleck, C. Cascaded second-order contribution to the third-order nonlinear susceptibility. Phys Rev A 2004;69:053812–22. https://doi.org/10.1103/physreva.69.053812.Search in Google Scholar

13. Dolgaleva, K, Shin, H, Boyd, RW. Observation of a microscopic cascaded contribution to the fifth-order nonlinear susceptibility. Phys Rev Lett 2009;103:113902–5. https://doi.org/10.1103/physrevlett.103.113902.Search in Google Scholar

14. Sarmiento, S, Altabas, JA, Spadaro, S, Lazaro, JA. Experimental assessment of 10 Gbps 5G multicarrier waveforms for high-layer split U-DWDM-PON-based front haul. J Lightwave Technol 2009;37:2344–51. https://doi.org/10.1109/jlt.2019.2904114.Search in Google Scholar

15. Farooque, U, Ranjan, R. Comparative crosstalk performance analysis of different configurations of heterogeneous multicore fiber. J Opt Commun 2024;45:35–46. https://doi.org/10.1515/joc-2019-0091.Search in Google Scholar

16. Islam, M. Raman amplifiers for telecommunications. IEEE J Sel Top Quantum Electron 2002;8:548–59. https://doi.org/10.1109/jstqe.2002.1016358.Search in Google Scholar

17. Singh, SP, Singh, RS. Distributed Raman fiber amplifiers for S-band. J Optoelectron Adv Mater 2012;6:1157–9.Search in Google Scholar

18. Beshr, AH, MoustafaAly, HAK, Seoud, A. New trend for optical signal-to-noise ratio of disturbed Raman fiber amplifier. Optik 2014;125:2572–6. https://doi.org/10.1016/j.ijleo.2013.11.018.Search in Google Scholar

19. Raghuawanshi, S, Gupta, V, Denesh, V, Talabattula, S. Bidirectional optical fiber transmission scheme through Raman amplification: effect of pump depletion. J Indian Inst Sci 2006;3:655–65.Search in Google Scholar

20. Humblet, PA, Azizoglu, M. On the bit error rate of lightwave systems with optical amplifiers. J Lightwave Technol 1991;9:1576–82. https://doi.org/10.1109/50.97649.Search in Google Scholar

21. Ono, T, Yano, Y, Fukuchi, K, Ito, T, Yamazaki, H, Yamaguchi, M, et al.. Characteristics of optical duobinary signals in terabit/s capacity, high-spectral efficiency WDM systems. J Lightwave Technol 1998;16:788–96. https://doi.org/10.1109/50.669006.Search in Google Scholar

22. Choudhury, PK, Khan, TZ. Symmetric 10 Gb/s wavelength reused bidirectional RSOA based WDM-PON with DPSK modulated downstream and OFDM modulated upstream signals. Opt Commun 2016;372:180–4. https://doi.org/10.1016/j.optcom.2016.04.027.Search in Google Scholar

23. Lee, JS, Chung, YC, DiGiovanni, DJ. Spectrum sliced fiber amplifier light source for multichannel WDM applications. IEEE Photonics Technol Lett 1993;5:1458–61. https://doi.org/10.1109/68.262573.Search in Google Scholar

24. Ahmed, J, Hussain, A, Siyal, MY, Manzoor, H, Masood, A. Parametric analysis of four wave mixing in DWDM systems. Optik 2014;125:1853–9. https://doi.org/10.1016/j.ijleo.2013.09.029.Search in Google Scholar

25. Ivaniga, T, Ovseník, L’, Turán, J. Influence of self-phase modulation on 8 and 16-channel DWDM system with NRZ and miller coding. Carpathian J Electr Comp Eng 2015;8:17–22.Search in Google Scholar

26. Bobrovs, V, Olonkins, S, Alsevska, A, Gegere, L, Ivanovs, G. Comparative performance of Raman-SOA and Raman-EDFA hybrid optical amplifiers in DWDM transmission systems. Int J Phys Sci 2013;8:1898–906.Search in Google Scholar
Received: 2024-02-05
Accepted: 2024-02-24
Published Online: 2024-03-19
Published in Print: 2025-04-28

© 2024 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Comparative study of single pump all optical fiber amplifiers (POAs) with ultra wide band and high gain fiber optic parametric amplifiers in highly nonlinear fibers
  4. Dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration
  5. Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers
  6. High efficient net gain and low noise figure based vertical cavity semiconductor optical amplifiers for wavelength division multiplexing applications
  7. Hybrid pumped laser sources based hybrid traveling wave SOA and optical EDFA amplifies for signal quality improvement
  8. Devices
  9. The effect of misalignment on the coupling optics involving laser diode and single-mode triangular index fiber with an upside down tapered hyperbolic microlens on its tip
  10. Fibers
  11. Investigation of hybrid chalcogenide photonic crystal fiber for MIR supercontinuum generation and optical communication
  12. Verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement
  13. Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system
  14. Various graded index plastic optical fiber performance signature capability with the optimum dispersion control for indoor coverage applications
  15. Lasers
  16. Optically injected quantum dot lasers and its complex dynamics
  17. Light emitting diode and laser diode system behaviour description and their performance signature measurements
  18. Networks
  19. Spectrum fragmentation-aware dynamic network slicing deployment in computing power networks based on elastic optical networks
  20. Investigation of 16 × 10 Gbps mode division multiplexed enabled integrated NGPON–FSO architecture under wired-wireless link losses
  21. Systems
  22. Free space optical communication system: a review of practical constraints, applications, and challenges
  23. High modulation effects on hybrid optical fiber links and OWC Channel based on optical DP-QSK transceiver systems
  24. Optical communication enhanced IDMBOC for maximizing backhaul-effect & maintaining optimum cell sizes
  25. Mitigating attenuation effects in free-space optics using WDM under variable atmospheric conditions
  26. Performance analysis of variable-gain amplify and forward relayed hybrid FSO/VLC communication system
  27. Wavelength division multiplexing of free space optical system under the effect of oil fire smoke
  28. A hybrid approach combining OFC and FSO for multichannel connectivity
  29. Performance analysis of 4QAM-OFDM-FSO link under rain weather conditions
  30. Exploring FSO link performance in varied atmospheric conditions to optimize 5G communication with a polarized quasi-diffuse transmitter
  31. Transmitter diversity and OAM incorporated 40 Gbps free space optical system
  32. Minimization of dispersion and non-linear effects in WDM based long-haul high capacity optical communication systems
  33. Retraction
  34. Retraction of: 76 articles published in Journal of Optical Communications
https://doi.org/10.1515/joc-2024-0040
Keywords for this article
multipumped; spectral spacing; ASE; central wavelength

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Comparative study of single pump all optical fiber amplifiers (POAs) with ultra wide band and high gain fiber optic parametric amplifiers in highly nonlinear fibers
  4. Dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration
  5. Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers
  6. High efficient net gain and low noise figure based vertical cavity semiconductor optical amplifiers for wavelength division multiplexing applications
  7. Hybrid pumped laser sources based hybrid traveling wave SOA and optical EDFA amplifies for signal quality improvement
  8. Devices
  9. The effect of misalignment on the coupling optics involving laser diode and single-mode triangular index fiber with an upside down tapered hyperbolic microlens on its tip
  10. Fibers
  11. Investigation of hybrid chalcogenide photonic crystal fiber for MIR supercontinuum generation and optical communication
  12. Verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement
  13. Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system
  14. Various graded index plastic optical fiber performance signature capability with the optimum dispersion control for indoor coverage applications
  15. Lasers
  16. Optically injected quantum dot lasers and its complex dynamics
  17. Light emitting diode and laser diode system behaviour description and their performance signature measurements
  18. Networks
  19. Spectrum fragmentation-aware dynamic network slicing deployment in computing power networks based on elastic optical networks
  20. Investigation of 16 × 10 Gbps mode division multiplexed enabled integrated NGPON–FSO architecture under wired-wireless link losses
  21. Systems
  22. Free space optical communication system: a review of practical constraints, applications, and challenges
  23. High modulation effects on hybrid optical fiber links and OWC Channel based on optical DP-QSK transceiver systems
  24. Optical communication enhanced IDMBOC for maximizing backhaul-effect & maintaining optimum cell sizes
  25. Mitigating attenuation effects in free-space optics using WDM under variable atmospheric conditions
  26. Performance analysis of variable-gain amplify and forward relayed hybrid FSO/VLC communication system
  27. Wavelength division multiplexing of free space optical system under the effect of oil fire smoke
  28. A hybrid approach combining OFC and FSO for multichannel connectivity
  29. Performance analysis of 4QAM-OFDM-FSO link under rain weather conditions
  30. Exploring FSO link performance in varied atmospheric conditions to optimize 5G communication with a polarized quasi-diffuse transmitter
  31. Transmitter diversity and OAM incorporated 40 Gbps free space optical system
  32. Minimization of dispersion and non-linear effects in WDM based long-haul high capacity optical communication systems
  33. Retraction
  34. Retraction of: 76 articles published in Journal of Optical Communications
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 17.11.2025 from https://www.degruyterbrill.com/document/doi/10.1515/joc-2024-0040/html?lang=en
Scroll to top button