Title :
Calculated performances of 1.3-μm vertical-cavity surface-emitting lasers on InGaAs ternary substrates
Author :
Shoji, Hajime ; Otsubo, Koji ; Fujii, Takuya ; Ishikawa, Hiroshi
Author_Institution :
Fujitsu Labs. Ltd., Atsugi, Japan
fDate :
2/1/1997 12:00:00 AM
Abstract :
1.3-μm vertical-cavity surface-emitting lasers (VCSEL´s) on InGaAs ternary substrates are proposed and designed, It is shown that a deep potential well on the ternary substrate enlarges optical gain of a strained quantum well in the wavelength region of 1.3 μm. A higher reflectivity distributed Bragg reflector (DBR) is also obtained by the use of the ternary substrate because materials with a large refractive-index difference can be used for the DBR. Calculated threshold current density of 1.3-μm VCSEL´s on the ternary substrates is much lower than those on the conventional InP substrates. The possibility of extremely low threshold current density below 200 A/cm 2 and temperature-insensitive operation are described
Keywords :
III-V semiconductors; aluminium compounds; current density; distributed Bragg reflector lasers; gallium arsenide; gallium compounds; indium compounds; laser beams; laser cavity resonators; quantum well lasers; reflectivity; refractive index; surface emitting lasers; 1.3 mum; DBR laser; InGaAs; InGaAs ternary substrates; InGaAs-InAlGaAs; InGaAs-InAlGaAs laser; InGaAs-InGaAsP; InGaAs-InGaAsP laser; InP substrates; deep potential well; low threshold current density; optical gain; reflectivity distributed Bragg reflector; refractive-index difference; strained quantum well; strained single quantum well laser; temperature-insensitive operation; ternary substrate; threshold current density; vertical-cavity surface-emitting lasers; Distributed Bragg reflectors; Indium gallium arsenide; Optical design; Optical refraction; Optical surface waves; Quantum well lasers; Surface emitting lasers; Surface waves; Threshold current; Vertical cavity surface emitting lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
