Performance investigation of hybrid optical amplifier using recycled residual pumping

Singh, Simranjit, Chandel, Chanakya, Kaur, Ramandeep

Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Simranjit Singh, Chanakya Chandel, Ramandeep Kaur Performance investigation of hybrid optical amplifier using recycled residual pumping (Исследование характеристик гибридных оптических усилителей, использующих рециркуляцию остаточной накачки) [на англ. яз.] // Оптический журнал. 2016. Т. 83. № 8. С. 63–67.

Simranjit Singh, Chanakya Chandel, Ramandeep Kaur Performance investigation of hybrid optical amplifier using recycled residual pumping (Исследование характеристик гибридных оптических усилителей, использующих рециркуляцию остаточной накачки) [in English] // Opticheskii Zhurnal. 2016. V. 83. № 8. P. 63–67.

For citation (Journal of Optical Technology):

Simranjit Singh, Chanakya Chandel, and Ramandeep Kaur, "Performance investigation of hybrid optical amplifier using recycled residual pumping," Journal of Optical Technology. 83(8), 498-501 (2016). https://doi.org/10.1364/JOT.83.000498

Abstract:

Power transience in an optical network hinders the performance of an optical communication system. In addition to increasing the capacity of the system, it has become mandatory to decrease fiber losses so as to increase the total efficiency of the system. Power transience is one such loss which not only decreases the efficiency of the system but also poses a threat to the functioning of active components. In this paper, we propose and exemplify the concept of recycling residual pumping in a Raman–erbium-doped fiber (EDF) hybrid optical amplifier (HOA) in the scenario of a dense wavelength division multiplexed (DWDM) system. Further, we investigated the power transience in the proposed hybrid amplifier and control it by using power shaping and channel shaping techniques.

Keywords:

Dense Wavelength Division Multiplexing (DWDM), Raman Fibre Amplifier (RFA), Gain Flattening Filter (GFF), Bit Error Rate (BER)

OCIS codes: 060.0060, 060.2310, 060.2320, 060.2410, 060.4510

References:

1. Singh S., Kaler R.S. Investigation of hybrid optical amplifiers for dense wavelength division multiplexed system with reduced spacings at higher bit rates // Int. J. FiberIntegr. Opt. 2012. V. 31. № 3. P. 208–220.
2. Singh S., Kaler R.S. Novel optical flat gain hybrid amplifier for dense wavelength division multiplexed system // IEEE Photon. Technol. Let. 2014. V. 26. P. 173–176.
3. Singh S., Saini S., Kaur G., Kaler R.S. On the optimization of Raman fiber amplifier using genetic algorithm in the scenario of a 64 nm 320 channels dense wavelength division multiplexed system // Journal of the Optical Society of Korea. 2014. V. 18. № 2. P. 118–123.
4. Singh S., Saini S., Kaur G., Kaler R.S. Multi parameter optimization of Raman fiber amplifier using genetic algorithm for L band dense wavelength division multiplexed system // Opt. Eng. 2014. V. 53. P. 765–789.

5. Kaler R.S., Sharma A.K., Sinha R.K., Kamal T.S. Power penalty analysis for realistic weight functions using differential time delay with higher-order dispersion // Opt. Fiber Technol. 2002. V. 8. № 3. P. 240.
6. Lee J.H., Chang Y.M., Han Y.G., Chung H., Kim S.H., Lee S.B. A detailed experimental study on single-pump Raman/EDFA hybrid amplifiers: static, dynamic and system performance comparison // J. Lightwave Technol. 2005. V. 23. № 11. P. 3483.
7. Singh S., Kaler R.S. Performance evaluation of 64×10 Gbps and 96×10 Gbps DWDM system with hybrid optical amplifier for different modulation formats. Optik. 2012. V. 123. P. 2199–2203.
8. Bononi L., Barbieri L. Design of gain-clamped doped-fiber amplifiers for optical dynamic performance. IEEE J. Lightw. Technol. 1999. V. 17. № 7. P. 1229–1240.
9. Srivastava A.K., Sun Y., Zyskind J.L., Sulhoff J.W., Wolf J., Tkach R.W. EDFA transient response to channel loss in WDM transmission system // J. Lightw. Technol. 1997. V. 9. № 3. P. 386–388.
10. Ono H., Shimano K., Fukutoku M., Kuwano S. An EDFA gain control and power monitoring scheme for fault detection in WDM networks by employing a power-stabilized control channel // Journal of Lightwave Technology. 2002. V. 20. P. 1335–1341.
11. Jackson T., Hahn T., Lin W., Wolff R.S., Mumey B. Bit error rate reduction by power shaping in WDM networks with EDFAs // Optical Fiber Technology. 2009. V. 15. P. 425–430.
12. Lin W., Wolff R.S., Mumey B. Decreasing EDFA transients by power shaping // Optical Switching and Networking. 2008. V. 5. P. 188–195.