Chinese Journal of Lasers, Volume. 46, Issue 8, 0806004(2019)
Effect of Intracavity Filtering Bandwidth on Bound-State Soliton Generation in Normal Dispersion Regime
Figures & Tables(6)
Fig. 1. Diagram of experimental setup. (a) Filter cavity with narrow-bandwidth (0.2 nm); (b) filter cavity with moderate-bandwidth (1.0 or 1.2 nm); (c) filter cavity with broad-bandwidth (2.3 nm)
Fig. 2. Experimental results of narrow bandwidth mode-locking. (a) Spectrum; (b) pulse sequence; (c) autocorrelation trace
Fig. 3. Experimental results of broad bandwidth mode-locking. (a) Spectrum; (b) pulse sequence; (c) autocorrelation trace
Fig. 4. Experimental results of 1.2 nm bandwidth mode-locking. (a) Spectrum (inset is spectrum in linear coordinate); (b) pulse sequence; (c) autocorrelation trace
Fig. 5. Experimental results of 1nm bandwidth mode-locking. (a) Spectrum (inset is spectrum in linear coordinate); (b) pulse sequence; (c) autocorrelation trace
Fig. 6. Supercontinuum spectra. (a) Pumped by bound-state soliton; (b) pumped by dissipative soliton with 0.07 nm linewidth; (c) pumped by dissipative soliton with 2.00 nm linewidth
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Kaijie Wang, Hang Wang, Tuanjie Du, Weiwei Li, Nan Chen, Zhengqian Luo. Effect of Intracavity Filtering Bandwidth on Bound-State Soliton Generation in Normal Dispersion Regime[J]. Chinese Journal of Lasers, 2019, 46(8): 0806004
Paper Information
Category: fiber optics and optical communications
Received: Feb. 26, 2019
Accepted: Apr. 12, 2019
Published Online: Aug. 13, 2019
The Author Email: Zhengqian Luo (zqluo@xmu.edu.cn)
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