Title :
Large Energy, Wavelength Widely Tunable, Topological Insulator Q-Switched Erbium-Doped Fiber Laser
Author :
Yu Chen ; Chujun Zhao ; Shuqing Chen ; Juan Du ; Pinghua Tang ; Guobao Jiang ; Han Zhang ; Shuangchun Wen ; Dingyuan Tang
Author_Institution :
Key Lab. for Micro-/NanoOptoelectronic Devices of Minist. of Educ., Hunan Univ., Changsha, China
Abstract :
We report on the generation of large energy, widely wavelength tunable pulses in an erbium-doped fiber laser passively Q-switched by a topological insulator saturable absorber (TI-SA). The TI-SA is prepared through an optical deposition method. Its saturating intensity and modulation depth are measured to be about 57 MW/cm2 and 22%, respectively. We show that the high modulation depth of TI-SA allows the generation of stable Q-switched pulses with per-pulse energy up to 1.5 μJ and its broadband saturable absorption favors the tunable Q-switching operation from 1510.9 nm to 1589.1 nm. Our study suggests that TI: Bi2Te3 could be a promising saturable absorber for both the high energy and broadband optical applications.
Keywords :
Q-switching; erbium; fibre lasers; laser tuning; broadband optical applications; high energy optical applications; optical deposition method; q-switched erbium-doped fiber laser; topological insulator saturable absorber; wavelength widely tunable; Optical pulses; Optical pumping; Optical saturation; Pump lasers; Topological insulators; Large energy; Q-switched; fiber laser; topological insulator; tunable;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2013.2295196
