Title :
Ion-implanted GaAs for subpicosecond optoelectronic applications
Author :
Tan, Hark Hoe ; Jagadish, Chennupati ; Korona, Krzysztof Piotr ; Jasinski, Jacek ; Kaminska, Maria ; Viselga, Rimas ; Marcinkevicius, Saulius ; Krotkus, Arunas
Author_Institution :
Dept. of Electron. Mater. Eng., Australian Nat. Univ., Canberra, ACT, Australia
fDate :
9/1/1996 12:00:00 AM
Abstract :
Ion implantation is shown to be able to shorten the carrier lifetime in semi-insulating GaAs independent of the ion species. Although ion implantation alone may shorten the lifetime to the order of femtoseconds, to obtain good resistivity and mobility an annealing process is required. Furthermore, chemically active ions may complicate the recovery of resistivity, such as Si which may be activated as dopants during annealing or O which creates additional deep levels. Optimum annealing temperature was determined to be around 600°C with carrier lifetime still in the picosecond range but with mobility ~2000 cm2V.s. The shortening of the carrier lifetimes and electrical properties of these materials are correlated to the structural properties
Keywords :
carrier lifetime; deep levels; gallium arsenide; high-speed optical techniques; ion implantation; optoelectronic devices; oxygen; silicon; 600 C; GaAs:O; GaAs:Si; additional deep levels; annealing process; carrier lifetime shortening; chemically active ions; electrical properties; good resistivity; ion mobility; ion species; ion-implanted GaAs; optimum annealing temperature; picosecond range; semi-insulating GaAs; subpicosecond optoelectronic applications; Annealing; Charge carrier lifetime; Conductivity; Electron mobility; Gallium arsenide; Ion implantation; Photoconducting materials; Radiative recombination; Semiconductor materials; Temperature;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.571762
