DocumentCode
25935
Title
Dual-Wavelength Harmonically Mode-Locked Fiber Laser With Topological Insulator Saturable Absorber
Author
Meng Liu ; Nian Zhao ; Hao Liu ; Xu-Wu Zheng ; Ai-Ping Luo ; Zhi-Chao Luo ; Wen-Cheng Xu ; Chu-Jun Zhao ; Han Zhang ; Shuang-Chun Wen
Author_Institution
Lab. of Nanophotonic Functional Mater. & Devices, South China Normal Univ., Guangzhou, China
Volume
26
Issue
10
fYear
2014
fDate
15-May-14
Firstpage
983
Lastpage
986
Abstract
Dual-wavelength passively harmonic mode locking (HML) operation is demonstrated in an erbium-doped fiber laser with a microfiber-based topological insulator (TI) saturable absorber. It was found that the dual-wavelength pulse-trains possess different HML orders due to the different cavity nonlinear effects experienced by the two wavelengths. By properly adjusting the cavity parameters, dual-wavelength HML pulses with repetition rates of 388 and 239 MHz were achieved. Moreover, wavelength switchable operation of dual-wavelength HML pulses was also obtained. The experimental results reveal that the microfiber-based TI could indeed be employed as a high-performance dual-function photonic device with the saturable absorption and high nonlinear effects for the applications in fields of ultrafast and nonlinear photonics.
Keywords
erbium; fibre lasers; laser mode locking; micro-optics; optical saturable absorption; topological insulators; cavity nonlinear effects; dual-function photonic device; dual-wavelength HML pulses; dual-wavelength harmonically mode-locked fiber laser; dual-wavelength pulse-trains; erbium-doped fiber laser; frequency 239 MHz; frequency 388 MHz; harmonic mode locking; microfiber-based topological insulator saturable absorber; nonlinear photonics; ultrafast photonics; Cavity resonators; Erbium-doped fiber lasers; Laser mode locking; Optical fiber devices; Optical fiber polarization; Fiber lasers; multiwavelength; passive mode-locking; topological insulator;
fLanguage
English
Journal_Title
Photonics Technology Letters, IEEE
Publisher
ieee
ISSN
1041-1135
Type
jour
DOI
10.1109/LPT.2014.2311101
Filename
6762876
Link To Document