Title :
Photo-detection in a reverse biased InGaAs/InP laser structure at 1.5μm
Author :
Davies, M. ; McGreer, K.A. ; Charbonneau, S. ; Dion, M. ; Aers, G.C. ; Takasaki, B. ; Odoysk, S. ; Landheer, D. ; Delage, A. ; Moss, D.
Author_Institution :
Nat. Res. Council, Ottawa, Ont., Canada
Abstract :
The authors have demonstrated that a conventional multiple quantum well ridge waveguide laser can also be operated as a high-speed photodetector with an internal quantum efficiency = 100% at a reverse bias of 5 V. The speed of this detector is limited by the escape of photo-generated carriers from the InGaAsP barriers to the InP cladding layer. The processes controlling the time response of the detector are considered. The photo-generated carriers must escape from the quantum well, diffuse across the InGaAsP barrier regions to the interface with the doped InP contacts and then escape over this barrier. The carrier escape mechanism is therefore a combination of thermionic emission, phonon-assisted tunneling and direct tunneling from the quantum well region. The carrier escape time is limited by the slowest of these processes
Keywords :
III-V semiconductors; gallium arsenide; indium compounds; infrared detectors; interface states; photodetectors; quantum well lasers; thermionic electron emission; tunnelling; 1.5 micron; 5 V; InGaAs-InP; carrier diffusion; carrier escape time; high-speed photodetector; internal quantum efficiency; multiple quantum well ridge waveguide laser; phonon-assisted tunneling; photo-generated carriers; reverse bias; thermionic emission; Detectors; Indium gallium arsenide; Indium phosphide; Photodetectors; Process control; Quantum well lasers; Thermionic emission; Time factors; Tunneling; Waveguide lasers;
Conference_Titel :
Indium Phosphide and Related Materials, 1993. Conference Proceedings., Fifth International Conference on
Conference_Location :
Paris
Print_ISBN :
0-7803-0993-6
DOI :
10.1109/ICIPRM.1993.380569
