Kelly sideband suppression and wavelength tuning of a conventional soliton in a Tm-doped hybrid mode-locked fiber laser with an all-fiber Lyot filter

Jianfeng Li; Yazhou Wang; Hongyu Luo; Yong Liu; Zhijun Yan; Zhongyuan Sun; Lin Zhang

doi:10.1364/PRJ.7.000103

Journals >Photonics Research >Volume 7 >Issue 2 >Page 103 > Article

Photonics Research
Vol. 7, Issue 2, 103 (2019)

Kelly sideband suppression and wavelength tuning of a conventional soliton in a Tm-doped hybrid mode-locked fiber laser with an all-fiber Lyot filter

Jianfeng Li^1、*, Yazhou Wang¹, Hongyu Luo¹, Yong Liu¹, Zhijun Yan^2、4, Zhongyuan Sun³, and Lin Zhang^3、5

Author Affiliations

¹State Key Laboratory of Electronic Thin Films and Integrated Devices, School of Optoelectronic Science and Engineering, University of Electronic Science and Technology of China, Chengdu 610054, China

²School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, China

³Aston Institute of Photonic Technologies (AiPT), Aston University, Birmingham B4 7ET, UK

⁴e-mail: yanzhijin@gmail.com

⁵e-mail: l.zhang@aston.ac.uk

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DOI: 10.1364/PRJ.7.000103 Cite this Article Set citation alerts

Jianfeng Li, Yazhou Wang, Hongyu Luo, Yong Liu, Zhijun Yan, Zhongyuan Sun, Lin Zhang. Kelly sideband suppression and wavelength tuning of a conventional soliton in a Tm-doped hybrid mode-locked fiber laser with an all-fiber Lyot filter[J]. Photonics Research, 2019, 7(2): 103 Copy Citation Text

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(a) Configuration of our AFLF consisting of two 45°-TFGs segmented by a PMF cavity and corresponding polarization state and phase delay evolutions as the light passes through each portion (inset); (b) theoretically calculated and (c) experimentally measured transmission spectra using PMFs with different lengths of 20 cm, 30 cm, 40 cm, 50 cm, and 60 cm; and (d) experimentally measured and theoretically calculated bandwidths of the AFLF as a function of the PMF length.

Fig. 1. (a) Configuration of our AFLF consisting of two 45°-TFGs segmented by a PMF cavity and corresponding polarization state and phase delay evolutions as the light passes through each portion (inset); (b) theoretically calculated and (c) experimentally measured transmission spectra using PMFs with different lengths of 20 cm, 30 cm, 40 cm, 50 cm, and 60 cm; and (d) experimentally measured and theoretically calculated bandwidths of the AFLF as a function of the PMF length.

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Fig. 2. Experimental setup of hybrid mode-locked Tm-doped fiber laser based on an AFLF.

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Fig. 3. Performances of mode-locked fiber lasers based on the AFLF with an FSR of 20.8 nm: (a) spectra from seed lasers with/without the AFLF, (b) autocorrelation traces corresponding to (a), (c) pulse waveform and sequence on oscilloscope, and (d) RF spectra with scanning range of 50 kHz and 500 MHz (inset).

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Fig. 4. (a) Theoretically calculated transmission spectra of the AFLF at different temperatures, (b) theoretically calculated wavelength shift of the AFLF as a function of temperature, (c) experimentally measured spectra at different temperatures, and (d) experimentally measured center wavelength as a function of temperature.

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