Title :
Theoretical and experimental analysis of leakage current in InGaAsP BH lasers with p-n-p-n current blocking layers
Author :
Yoshida, Yasuaki ; Watanabe, Hitoshi ; Shibata, Kimitaka ; Takemoto, Akira ; Higuchi, Hideyo
Author_Institution :
Opt. & Semicond. Div., Mitsubishi Electr. Corp., Hyogo, Japan
fDate :
9/1/1999 12:00:00 AM
Abstract :
The dependence of the leakage current in 1.3-μm InGaAsP buried heterostructure (BH) lasers with p-n-p-n current blocking layers on well number, mesa width, and carrier density has been analyzed using a two-dimensional device simulator and compared with the electroluminescence (EL) emitted from InP layers. The analysis of the minority carrier flow reveals that the electron current flowing through the p-n-p-n current blocking layers is the dominant component of the leakage current. The measured EL intensity has two peaks at both sides of the n-blocking layer apart from the active layer. The EL intensity decreases with increasing well number and carrier density of the p-blocking layer, and increases with increasing mesa width. These results are consistent with the simulations
Keywords :
III-V semiconductors; carrier density; electroluminescence; gallium arsenide; gallium compounds; indium compounds; laser theory; leakage currents; semiconductor device models; semiconductor lasers; 1.3 mum; 1.3-μm InGaAsP buried heterostructure lasers; 2D device simulator; InGaAsP; InGaAsP BH lasers; carrier density; electroluminescence; leakage current; mesa width; minority carrier flow; p-n-p-n current blocking layers; Charge carrier density; Electrons; Indium phosphide; Laser modes; Laser theory; Leakage current; Poisson equations; Quantum well devices; Quantum well lasers; Semiconductor lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
