Title :
Study of an Unsaturated PbSe QD-Doped Fiber Laser by Numerical Simulation and Experiment
Author :
Cheng Cheng ; Fang Yuan ; Xiaoyu Cheng
Author_Institution :
Dept. of Appl. Phys., Zhejiang Univ. of Technol., Hangzhou, China
Abstract :
We describe an unsaturated gain-loss model in regards to colloidal PbSe quantum dot (QD)-doped fiber laser realized previously. Based on experimental observation on the laser, the numerical simulation on the model indicates there exists a pumping threshold that depends on the QD doping concentration. There is a defined range of doping concentration, within which the laser can be generated. Available doping density depends on the fiber length, following an exponential decrease with the increased fiber length. Our model suggests a reasonable lifetime of 100 ns for the upper level of QDs in the background of UV curing adhesive, which is shorter than the lifetime reported in literatures.
Keywords :
IV-VI semiconductors; colloids; doping profiles; fibre lasers; lead compounds; numerical analysis; optical fibre losses; optical pumping; semiconductor quantum dots; PbSe; QD doping concentration; UV curing adhesive; colloidal quantum dot-doped fiber laser; doping density; fiber length; numerical simulation; pumping threshold; unsaturated PbSe QD-doped fiber laser; unsaturated gain-loss model; Doping; Fiber lasers; Laser excitation; Laser modes; Nanocrystals; Pump lasers; Quantum dots; PbSe quantum dot; doping density; quantum dot doped fiber laser; threshold;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2014.2357052
