Tunable 60 GHz Multiwavelength Brillouin Erbium Fiber Laser-Reference-Cited by-同舟云学术

Tunable 60 GHz Multiwavelength Brillouin Erbium Fiber Laser

Published:2023-03-03 Issue:5 Volume:13 Page:3275
ISSN:2076-3417
Container-title:Applied Sciences
language:en
Short-container-title:Applied Sciences

Author:

Awsaj Mohammed K.¹²,Al-Mashhadani Thamer Fahad³^ORCID,Al-Mashhadani Mohammed Kamil Salh⁴^ORCID,Hammudi Rabi Noori³,Ali Ali yaseen⁵,Zan Mohad Saiful Dzulkefly¹^ORCID,Arsad Norhana¹^ORCID

Affiliation:

1. UKM—Photonics Technology Laboratory, Department of Electrical, Electronic and Systems Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, Bangi 43600, Malaysia

2. Department of Electrical Engineering, Al-Anbar University, Ramadi 31001, Iraq

3. Department of Laser Engineering and Optoelectronics, Kut University College, Al-Kut 52001, Iraq

4. Department of Electrical Engineering, Tikrit University, Tikrit 34001, Iraq

5. Department of Petroleum Systems Control Engineering, The College of Petroleum Processes Engineering, Tikrit University, Tikrit 34001, Iraq

Abstract

An experimental study of a tunable 60 GHz multiwavelength Brillouin erbium fiber laser is presented in this paper. Two unidirectional ring laser cavities and two pre-amplification laser cavities are used. In the first three cavities, a Brillouin gain medium is presented with a dispersion compensation fiber (DCF) spool, and a single-mode fiber (SMF) spool is used as a Brillouin gain medium in the fourth cavity. Three erbium amplifiers are utilized to supply enough gain to the generated Brillouin Stokes signal and to suppress cavity losses. For these three amplifiers, up to 450 mW (150 mW for each) of a 1480 nm pump power is used. In our proposed configuration, four sextuple Brillouin Stokes signals with a high power of 10 dBm and more than 55 dB as an optical signal-to-noise ratio are achieved. The obtained Brillouin Stokes signals can be tuned over 30 nm (1560–1590 nm) and can be easily used in dense wavelength division multiplexing in optics communication systems.

Funder

Universiti Kebangsaan Malaysia

Publisher

MDPI AG

Subject

Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science

Link

https://www.mdpi.com/2076-3417/13/5/3275/pdf

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