Home Flattened gain S + C + L Band RAMAN–Thulium-Doped Tellurite Fiber Amplifier Hybrid Optical Amplifier for Super Dense Wavelength Division Multiplexing System
Article
Licensed
Unlicensed Requires Authentication

Flattened gain S + C + L Band RAMAN–Thulium-Doped Tellurite Fiber Amplifier Hybrid Optical Amplifier for Super Dense Wavelength Division Multiplexing System

  • Chakresh Kumar EMAIL logo and Rakesh Goyal
Published/Copyright: July 18, 2017
Become an author with De Gruyter Brill
Submit Manuscript Author Information
Journal of Optical Communications
From the journal Journal of Optical Communications Volume 40 Issue 3

Abstract

In this paper we have examined the performances of 180×10 Gbps super dense wavelength division multiplexing (SD-WDM) system using the RAMAN–thulium-doped tellurite fiber amplifier (TDTFA) hybrid optical amplifier (HOA) with the channel spacing of 50 GHz in S+C+L band. Accepted rating flattened gain of 39.21 dB with the noise figure less than 5 dB is archived with the dual-pumping ( power level of 500 mW at 980 nm and at 1100 nm for RAMAN optical amplifier and similar, power level of TDTF amplifier is set to 500 mW and 350 mW at 1150 nm) technique. The effect of the proposed hybrid amplifier is evaluated in terms of gain and noise figure without using any coast effective technique. The outcome from the proposed model is also compared here with the existing optical amplifier.

Keywords: RAMAN; TDTF; gain; noise figure; hybrid optical amplifier; S+C+L band

References

1. Chung WJ, Seo HS, Park BJ, Ahn JT, Choi YG. Selenide glass optical fiber doped with Pr for U-band optical amplifier. Etri J 2005 Aug;27(4).10.4218/etrij.05.0105.0005Search in Google Scholar

2. Seo HS, Chung WJ, Ahn JT. S plus C bands amplification in as distributed E-doped Raman fiber. IEEE Photon Technol Lett 2005 Jun;17(6):1181–1183.10.1109/LPT.2005.846564Search in Google Scholar

3. Seo HS, Choi YG, Park BJ, Cho DH, Kim KH. Simultaneous amplification by Er-ions and SRS in a Er-doped germano-silica fiber. IEEE Photon Technol Lett 2003 Sep;15(9):1198–1200.10.1109/LPT.2003.816129Search in Google Scholar

4. Masuda H, Kawai S. Wide-band and gain-flattened hybrid fiber amplifier consisting of an EDFA and a multiwavelength pumped Raman amplifier. IEEE Photon Technol Lett 1999 Jun;11(6):647–649.10.1109/68.766772Search in Google Scholar

5. Ono H, Yamada A, Shimizu M. S-band erbium-doped silica fiber amplifier with flattened-gain of over 21 dB. Electron Lett 2002 Sep;38(19):1084–1086.10.1049/el:20020776Search in Google Scholar

6. Sun Y, Sulhoff JW, Srivastava AK, Zyskind JL, Strasser TA, Pedrazzani JR, et al. 80 nm ultra-wideband erbium-doped silica fiber amplifier. Electron Lett 1997 Nov;33(23):1965–1966.10.1049/el:19971305Search in Google Scholar

7. Kidorf H, Rottwitt K, Nissov M, Ma M, Rabarijaona E. Pump interactions in a 100-nm bandwidth Raman amplifier. IEEE Photon Technol Lett 1999 May;11(5):530–532.10.1109/68.759388Search in Google Scholar

8. Yamada M, Mori A, Kobayashi K, Ono Y, Kanamori T, Oikawa K, et al. Gain flattened tellurite-based EDFA with a flat amplification bandwidth of 76 nm. IEEE Photon Technol Lett 1998 Sep;10(9):1244.10.1109/68.705604Search in Google Scholar

9. Sakamoto T, Aozasa S, Yamada M, Shimizu M. High-gain hybrid amplifier consisting of cascaded Fluoride-based TDFA and silica based EDFA in 1458–1540 nm wavelength region. Electron Lett 2003;39:597.10.1049/el:20030399Search in Google Scholar

10. Jeong H, Oh K, Han SR, Morse TF. Broadband amplified spontaneous emission from an Er3+- Tm3+ codoped silica fiber. Opt Lett 2003;28:161.10.1364/OL.28.000161Search in Google Scholar PubMed

11. Kasamatsu T, Yano Y, Ono T. 1.49-µm band gain-shifted thulium-doped fiber amplifier for WDM transmission systems. J Lightw Technol 2002 Oct;20(10):1826–1838.10.1109/JLT.2002.804038Search in Google Scholar

12. Percival RM, Williams JR. Highly efficient 1.064 µm upconversion pumped 1.47 µm thulium doped fluoride fiber amplifier. Electron Lett 1994;30(20):1684–1685.10.1049/el:19941114Search in Google Scholar

13. Taylor ERM, Ng LN, Nilsson J, Caponi R, Pagano A, Potenza M, et al. Thulium-doped telluride fiber amplifier. IEEE PhotonTechnol Lett 2004 Mar;16(3):777–779.10.1109/LPT.2004.823733Search in Google Scholar

14. Ohishi Y, Kanamori T, and Nishi T, et al. Concentration effect on gain of Pr3+-doped fluoride fiber amplifier for 1.3 µm. IEEE PhotonTechnol Lett 1992 Dec;4(12):1338–1340.10.1109/68.180569Search in Google Scholar

15. Lozano W, De Araujo CB, Messaddeq Y. Enhanced frequency upconversion in Er3+ doped fluoroindate glass due to energy transfer from Tm3+. J Non-Cryst Solids 2002;311(2):318–323.10.1016/S0022-3093(02)01852-5Search in Google Scholar

16. Zou X, Shikida A, Yanagita H, Toratani H. Mechanisms of upconversion fluorescences in Er3+, Tm3+ codoped fluorozircoaluminate glasses. J Non-Cryst Solids 1995;181(1):100–110.10.1016/0022-3093(94)00510-9Search in Google Scholar

17. Tanabe S, Suzuki K, Soga N, Hanada T. Mechanisms and concentration dependence of Tm3+ blue and Er3+ green up-conversion in co-doped glasses by red-laser pumping. J Lumin 1995;65(3):247–253.10.1016/0022-2313(95)00071-2Search in Google Scholar

18. Yeh DC, Petrin RR, Sibley WA, Madigou V, Adam JL, Suscavage MJ. Energy transfer between Er3+ and Tm3+ ions in a barium fluoride-thorium fluoride glass. Phys Rev B 1989;39(1):80–90.10.1103/PhysRevB.39.80Search in Google Scholar PubMed

19. Jeong H, Oh K, Han SR, Morse TF. Characterization of broadband amplified spontaneous emission from a Er3+-Tm3+ co-doped silica fiber. Chem Phys Lett 2003;367:507–512.10.1016/S0009-2614(02)01802-XSearch in Google Scholar

20. Huang L, Jha A, Shen S, Liu X. Broadband emission in Er3+-Tm3+ codoped tellurite fiber. Opt Express 2004 May 31;12(11):2429–2434.10.1364/OPEX.12.002429Search in Google Scholar

Received: 2017-04-27
Accepted: 2017-06-22
Published Online: 2017-07-18
Published in Print: 2019-07-26

© 2019 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Flattened gain S + C + L Band RAMAN–Thulium-Doped Tellurite Fiber Amplifier Hybrid Optical Amplifier for Super Dense Wavelength Division Multiplexing System
  4. Devices
  5. Laser Diode to Single-Mode Circular Core Parabolic Index Fiber Coupling via Upside-Down Tapered Hyperbolic Microlens on the Tip of the Fiber: Prediction of Coupling Optics by ABCD Matrix Formalism
  6. Impact of Various Parameters on the Performance of Optical Directional Coupler
  7. Perfect Tunable All-Optical Diode based on Periodic Photonic Crystal Grand Graded Structures
  8. Design of All-optical Half-subtractor Circuit Device using 2-D Principle of Photonic Crystal Waveguides
  9. Networks
  10. Minimization Number of Network-Coded Links Based on Improved Adaptive Genetic Algorithm for Multi-source Optical Networks
  11. Design and Investigations with all Optical Multilogic Network
  12. Comparative Study of Optical Interconnection Architectures in Data Center Networks
  13. Fallacious Node Algorithm for Performance Enhancement in Optical-Burst-Switching Networks
  14. Receiver
  15. Effect of Pointing Error on BER Performance of a Multi-wavelength OCDMA FSO System with SIK Dual Detector Receiver
  16. Systems
  17. 40 Gbps Downstream Transmission Using DQPSK and 20 Gbps Upstream Transmission Using IRZ Modulation in Full-Duplex WDM-PON
  18. Performance Evaluation of Wavelet-Based Optical Wireless System using On-Off Keying Modulation
  19. Construction and Analysis of a Novel SAC-OCDMA System with EDW Coding using Direct Detection Technique
  20. Effects of Diverse Dispersion Compensation Formats at Different Data Rates in Light-Wave System
  21. 10 Gbps-60 GHz RoF Transmission System for 5 G Applications
  22. High Speed 4 × 2.5 Gbps-5 GHz AMI-WDM-RoF Transmission System for WLANs
  23. Theory
  24. Optical Buffer Design based on SOA and DCFBG
  25. Statistical Analysis of FSO Links Employing Multiple Transmitter/Receiver Strategy over Double-Generalized and Gamma–Gamma Fading Channel Using Different Modulation Techniques
  26. Bit Error Rate Performance Analysis of Hybrid Subcarrier Intensity Modulation-Based FSO with Spatial Diversity in Various Weather Conditions
  27. Analyzing DWDM System with Different Modulation Formats and Channel Spacing
  28. On the End-to-End Performance of a Mixed RF-FSO link with a Decode-and-Forward Relay
  29. Retraction
  30. Retraction
https://doi.org/10.1515/joc-2017-0068
Keywords for this article
RAMAN; TDTF; gain; noise figure; hybrid optical amplifier; S+C+L band

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Flattened gain S + C + L Band RAMAN–Thulium-Doped Tellurite Fiber Amplifier Hybrid Optical Amplifier for Super Dense Wavelength Division Multiplexing System
  4. Devices
  5. Laser Diode to Single-Mode Circular Core Parabolic Index Fiber Coupling via Upside-Down Tapered Hyperbolic Microlens on the Tip of the Fiber: Prediction of Coupling Optics by ABCD Matrix Formalism
  6. Impact of Various Parameters on the Performance of Optical Directional Coupler
  7. Perfect Tunable All-Optical Diode based on Periodic Photonic Crystal Grand Graded Structures
  8. Design of All-optical Half-subtractor Circuit Device using 2-D Principle of Photonic Crystal Waveguides
  9. Networks
  10. Minimization Number of Network-Coded Links Based on Improved Adaptive Genetic Algorithm for Multi-source Optical Networks
  11. Design and Investigations with all Optical Multilogic Network
  12. Comparative Study of Optical Interconnection Architectures in Data Center Networks
  13. Fallacious Node Algorithm for Performance Enhancement in Optical-Burst-Switching Networks
  14. Receiver
  15. Effect of Pointing Error on BER Performance of a Multi-wavelength OCDMA FSO System with SIK Dual Detector Receiver
  16. Systems
  17. 40 Gbps Downstream Transmission Using DQPSK and 20 Gbps Upstream Transmission Using IRZ Modulation in Full-Duplex WDM-PON
  18. Performance Evaluation of Wavelet-Based Optical Wireless System using On-Off Keying Modulation
  19. Construction and Analysis of a Novel SAC-OCDMA System with EDW Coding using Direct Detection Technique
  20. Effects of Diverse Dispersion Compensation Formats at Different Data Rates in Light-Wave System
  21. 10 Gbps-60 GHz RoF Transmission System for 5 G Applications
  22. High Speed 4 × 2.5 Gbps-5 GHz AMI-WDM-RoF Transmission System for WLANs
  23. Theory
  24. Optical Buffer Design based on SOA and DCFBG
  25. Statistical Analysis of FSO Links Employing Multiple Transmitter/Receiver Strategy over Double-Generalized and Gamma–Gamma Fading Channel Using Different Modulation Techniques
  26. Bit Error Rate Performance Analysis of Hybrid Subcarrier Intensity Modulation-Based FSO with Spatial Diversity in Various Weather Conditions
  27. Analyzing DWDM System with Different Modulation Formats and Channel Spacing
  28. On the End-to-End Performance of a Mixed RF-FSO link with a Decode-and-Forward Relay
  29. Retraction
  30. Retraction
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 23.9.2025 from https://www.degruyterbrill.com/document/doi/10.1515/joc-2017-0068/html
Scroll to top button