Title :
Wideband and High Dynamic DFB Laser Used for Short Pulse Recovery
Author :
Mingchao Chang ; Liang Xie ; Xiaoqiong Qi ; Zhitao Peng ; Jun Dong
Author_Institution :
State Key Lab. on Integrated Optoelectron., Inst. of Semicond., Beijing, China
Abstract :
The directly modulated distributed feedback (DM-DFB) laser module is applied as a signal recovery device in a ~3ns pulse modulated 1053 nm laser system. We present its performance on short pulse recovery with various pulse waveforms. The DM-DFB laser has a bandwidth as high as 20 GHz with in-band flatness less than ±3 dB. The dynamic range of the high linear DM-DFB laser is as high as 60 dB. The recovery system employing this DM-DFB laser can operate normally with the original pulse peak amplitude dynamic range of 100:1. The experimental results show that both rectangular wave pulse and exponential wave pulse have been excellently recovered through the recovery system. The normalized deviation is lower than 0.3% when the original pulse peak amplitude is higher than 1000 mV.
Keywords :
distributed feedback lasers; optical communication equipment; optical modulation; pulse modulation; bandwidth 20 GHz; directly modulated distributed feedback laser module; exponential wave pulse; high linear DM-DFB laser; in-band flatness; normalized deviation; original pulse peak amplitude dynamic range; pulse modulated laser system; pulse waveform; recovery system; rectangular wave pulse; short pulse recovery; signal recovery device; time 3 ns; voltage 1000 mV; wavelength 1053 nm; Bandwidth; Distributed feedback devices; Dynamic range; Laser fusion; Measurement by laser beam; Optical transmitters; High bandwidth; Radio over Fiber; high bandwidth; high linearity; optical transmitter;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2398456
