High signal-to-noise ratio fiber laser at 1596 nm based on a Bi/Er/La co-doped silica fiber

Lei Yang; Jianxiang Wen; Yan Wu; Ying Wan; Longzhao Zeng; Wei Chen; Fufei Pang; Xiaobei Zhang; Tingyun Wang

doi:10.3788/COL202220.051402

Journals >Chinese Optics Letters >Volume 20 >Issue 5 >Page 051402 > Article

Chinese Optics Letters
Vol. 20, Issue 5, 051402 (2022)

High signal-to-noise ratio fiber laser at 1596 nm based on a Bi/Er/La co-doped silica fiber

Lei Yang, Jianxiang Wen^*, Yan Wu, Ying Wan, Longzhao Zeng, Wei Chen, Fufei Pang, Xiaobei Zhang, and Tingyun Wang

Author Affiliations

Laboratory of Specialty Fiber Optics and Optical Access Networks, School of Communication and Information Engineering, Shanghai University, Shanghai 200444, China

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DOI: 10.3788/COL202220.051402 Cite this Article Set citation alerts

Lei Yang, Jianxiang Wen, Yan Wu, Ying Wan, Longzhao Zeng, Wei Chen, Fufei Pang, Xiaobei Zhang, Tingyun Wang. High signal-to-noise ratio fiber laser at 1596 nm based on a Bi/Er/La co-doped silica fiber[J]. Chinese Optics Letters, 2022, 20(5): 051402 Copy Citation Text

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$(a) Refractive index distribution and the cross-sectional image (inset), (b) absorption spectrum, (c) excitation–emission spectra, and (d) fluorescence decay curves of the BELDF.$

Fig. 1. (a) Refractive index distribution and the cross-sectional image (inset), (b) absorption spectrum, (c) excitation–emission spectra, and (d) fluorescence decay curves of the BELDF.

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(a) Fluorescence spectrum pumped by 980 nm laser and (b) the gain coefficient at different signal light powers as a function of pump power of the BELDF.

Fig. 2. (a) Fluorescence spectrum pumped by 980 nm laser and (b) the gain coefficient at different signal light powers as a function of pump power of the BELDF.

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Fig. 3. Schematic of the 1596 nm fiber laser and optical amplification.

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Fig. 4. Laser characteristics. (a) Laser output powers as a function of input pump powers with different lengths of BELDF1, (b) slope efficiency and maximum output power as functions of the BELDF1 length, (c) output spectra of the laser with a 6-m-long BELDF1 under maximum output power, (d) laser stability monitored within 6.5 h, (e) laser stability monitored within 65 min, and (f) fluctuation of the lasing center wavelength.

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Fig. 5. (a) Amplified laser output power as a function of input pump power with different lengths of BELDF2 and (b) spectral characteristics of the amplified laser with BELDF2 length of 6 m.

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Central Wavelength (nm)	Fiber Length (m)	Slope Efficiency (%)	Output Power/Input Pump Power (mW)	Threshold Power (mW)	OSNR (dB)	3 dB Linewidth (nm)	Refs.
1595^a	8.18	/	5.83/233	/	56	9.1	[33]
1610^a	8	$\sim 6.2$	308/5000	/	35	1.06	[34]
1567^a	45	$\sim 33.7$	91/270	/	/	0.03	[35]
1614^b	2	$\sim 2.8$	52.4/2500	/	$\sim 50$	/	[36]
1582^b	15	13.5	$\sim 11.2 / 100$	15	$\sim 50$	/	[37]
1595^b	10	/	9.1/100	23.4	$\sim 40$	/	[38]
1596^b	6	17.0	107.4/685	$\sim 35$	74.9	$< 0.02$	This work