Title :
Two dimension current transport of the novel large coupled optical cavity semiconductor lasers
Author :
Li, Jianjun ; Zhu, Wenjun ; Lian, Peng ; Cui, Bifeng ; Liu, Ying ; Du, Jingyu ; Gao, Guo ; Zou, Deshu ; Shen, Guangdi
Author_Institution :
Dept. of Electron. Eng., Beijing Polytech. Univ., China
Abstract :
In order to study the current transport of the novel semiconductor laser diode, which has several active regions cascaded by tunnel junctions, a two dimension model is built. By using the finite difference method, the current density and carriers within the device can be obtained. According to the simulation results, there exists a severe current spreading for the novel device, so we proposed a double-side strip structure to confine the carriers along the lateral direction. Experimental result shows that for a 4-active region laser combined with the double-side strip structure, the slop efficiency is as high as 2.97W/A, and an output power of 4.44W can be reached at 2A.
Keywords :
current density; finite difference methods; laser cavity resonators; laser theory; semiconductor device measurement; semiconductor device models; semiconductor lasers; 2 A; 4-active region laser; 4.44 W; active regions; cascaded tunnel junctions; current density; current transport; double-side strip structure; finite difference method; large coupled optical cavity semiconductor lasers; output power; semiconductor laser diode; severe current spreading; simulation; slop efficiency; two dimension current transport; two dimension model; Carrier confinement; Current density; Diode lasers; Finite difference methods; Laser modes; Optical coupling; Power lasers; Quantum cascade lasers; Semiconductor lasers; Strips;
Conference_Titel :
Solid-State and Integrated-Circuit Technology, 2001. Proceedings. 6th International Conference on
Print_ISBN :
0-7803-6520-8
DOI :
10.1109/ICSICT.2001.982137
