Stable multiwavelength thulium fiber laser assisted by four wave mixing effect

•Simple highly nonlinear fiber-integrated setup for 2 µm-band multiwavelength laser.•High 10-db bandwidth channel count better than other more complicated setups.•Lower pump power requirement to achieve high channel count.•Stable performance comparable to other reported works. In this work, stable m...

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Bibliographic Details
Published in:Optics and laser technology 2018-10, Vol.106, p.191-196
Main Authors: Al-Alimi, A.W., Abu Bakar, M.H., Abas, A.F., Alresheedi, M.T., Zainol Abidin, N.H., Mahdi, M.A.
Format: Article
Language:English
Subjects:
Fiber lasers
Fiber optics
Four-wave mixing
Lasers
Multiwavelength
Noise levels
Optical communication
Signal to noise ratio
Stability
Thulium
Thulium-doped fiber
Variation
Wavelengths
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Summary:•Simple highly nonlinear fiber-integrated setup for 2 µm-band multiwavelength laser.•High 10-db bandwidth channel count better than other more complicated setups.•Lower pump power requirement to achieve high channel count.•Stable performance comparable to other reported works. In this work, stable multiwavelength thulium laser (TDFL) using interleaving filter and assisted by four wave mixing (FWM) effect in 0.5 km long highly nonlinear fiber (HNLF) is experimentally demonstrated. The impacts of altering the thulium pump power and wavelength on several laser characteristics such as threshold, laser count, output power and optical signal to noise ratio are investigated. Up to 19 output wavelengths within a 10 dB bandwidth with optical signal-to-noise ratio of more than 35 dB were generated from 1875 nm to 1897 nm. The laser has a threshold pump power of 0.3 W and a maximum peak power and wavelength fluctuations within 60 min of 1 dB and 0.2 nm respectively, which indicates the good stability of the proposed fiber laser. The laser performance without HNLF emphasizes the significant role of FWM in the performance of TDFL in terms of stability and number of wavelengths.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2018.03.030