Generation of Stable Picosecond Chirp-Free Pulses at 10 GHz from a Nonpolarization Maintaining Regeneratively Mode-Locked Fibre Laser
TAN Bin, LI Zhi-Yong, WANG Zhao-Ying, GE Chun-Feng, JIA Dong-Fang, NI Wen-Jun, LI Shi-Chen
Laboratory of Optoelectronic Information Science and Technology, College of Precision Instrument and Optoelectronics Engineering, Tianjin University, Tianjin 300072
Generation of Stable Picosecond Chirp-Free Pulses at 10 GHz from a Nonpolarization Maintaining Regeneratively Mode-Locked Fibre Laser
TAN Bin;LI Zhi-Yong;WANG Zhao-Ying;GE Chun-Feng;JIA Dong-Fang;NI Wen-Jun;LI Shi-Chen
Laboratory of Optoelectronic Information Science and Technology, College of Precision Instrument and Optoelectronics Engineering, Tianjin University, Tianjin 300072
Abstract: A 10 GHz regeneratively mode-locked fibre laser (RMLFL) at 1550 nm constructed with commercially available radio frequency components is presented. Chirp-free hyperbolic secant pulses with duration from 4.4 ps to 8 ps and output reaching 3.6 mW are acquired. Without any cavity length or polarization maintaining mechanism, the error-free operation of this RMLFL can be carried out in room temperature.
TAN Bin;LI Zhi-Yong;WANG Zhao-Ying;GE Chun-Feng;JIA Dong-Fang;NI Wen-Jun;LI Shi-Chen. Generation of Stable Picosecond Chirp-Free Pulses at 10 GHz from a Nonpolarization Maintaining Regeneratively Mode-Locked Fibre Laser[J]. 中国物理快报, 2004, 21(11): 2188-2190.
TAN Bin, LI Zhi-Yong, WANG Zhao-Ying, GE Chun-Feng, JIA Dong-Fang, NI Wen-Jun, LI Shi-Chen. Generation of Stable Picosecond Chirp-Free Pulses at 10 GHz from a Nonpolarization Maintaining Regeneratively Mode-Locked Fibre Laser. Chin. Phys. Lett., 2004, 21(11): 2188-2190.