Title :
High Fundamental-Repetition-Rate Bound Solitons in Carbon Nanotube-Based Fiber Lasers
Author :
Liu, H.H. ; Chow, K.K.
Author_Institution :
Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore, Singapore
Abstract :
We demonstrate bound solitons formation with a high fundamental-repetition-rate of 211.8 MHz from an all-fiber linear-configuration mode-locked laser incorporating a carbon-nanotube-based saturable absorber for the first time. By adjusting the polarization state of laser cavity, bound solitons exhibit a large change of pulse separation in a range of 3.5-73 times longer than the pulsewidth, while the phase difference of the tightly bound solitons switches between $pm pi /2$ . Numerical simulations confirm the experimental observations about the dependence of spectral profile of bound solitons on the pulse separation and the phase difference.
Keywords :
carbon nanotubes; fibre lasers; laser beams; laser mode locking; numerical analysis; optical fibre polarisation; optical saturable absorption; optical solitons; C; all-fiber linear-configuration mode-locked laser; bound soliton formation; carbon nanotube-based fiber lasers; carbon-nanotube-based saturable absorber; high fundamental-repetition-rate bound solitons; laser cavity; numerical simulations; phase difference; polarization state; pulse separation; pulsewidth; spectral profile; tightly bound solitons; Cavity resonators; Erbium-doped fiber lasers; Laser mode locking; Optical fiber dispersion; Optical fiber polarization; Solitons; Optical fiber lasers; Optical pulse generation; Optical solitons; optical pulse generation; optical solitons;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2391092
