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Proceedings Paper

S-band multi-wavelength Brillouin-Raman fiber laser utilizing fiber Bragg grating and Raman amplifier in the ring cavity
Author(s): Nur Elina Anwar; N. A. M. Ahmad Hambali; M. Syazwan Sohaimi; M. M. Shahimin; M. H. A. Wahid; N. Roshidah Yusof; A. Zakiah Malek
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Paper Abstract

This paper is focusing on simulation and analyzed of S-band multi-wavelength Brillouin–Raman fiber laser performance utilizing fiber Bragg grating and Raman amplifier in ring cavity by using Optisystem software. Raman amplifieraverage power model is employed for signal amplification. This laser system is operates in S-band wavelength region due to vast demanding on transmitting the information. Multi-wavelength fiber lasers based on hybrid Brillouin-Raman gain configuration supported by Rayleigh scattering effect have attracted significant research interest due to its ability to produced multi-wavelength signals from a single light source. In multi-wavelength Brillouin–Raman fiber, single mode fiber is utilized as the nonlinear gain medium. From output results, 90 % output coupling ratio has ability to provide the maximum average output power of 43 dBm at Brillouin pump power of 20 dBm and Raman pump power of 14 dBm. Furthermore, multi-wavelength Brillouin–Raman fiber laser utilizing fiber Bragg grating and Raman amplifier is capable of generated 7 Brillouin Stokes signals at 1480 nm, 1510 nm and 1530 nm.

Paper Details

Date Published: 26 August 2015
PDF: 7 pages
Proc. SPIE 9586, Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications IX, 958615 (26 August 2015); doi: 10.1117/12.2187407
Show Author Affiliations
Nur Elina Anwar, Univ. Malaysia Perlis (Malaysia)
N. A. M. Ahmad Hambali, Univ. Malaysia Perlis (Malaysia)
M. Syazwan Sohaimi, Univ. Malaysia Perlis (Malaysia)
M. M. Shahimin, Univ. Malaysia Perlis (Malaysia)
M. H. A. Wahid, Univ. Malaysia Perlis (Malaysia)
N. Roshidah Yusof, Univ. Malaysia Perlis (Malaysia)
A. Zakiah Malek, Univ. Malaysia Perlis (Malaysia)


Published in SPIE Proceedings Vol. 9586:
Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications IX
Shizhuo Yin; Ruyan Guo, Editor(s)

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