Electronic energy levels of defects that anneal in the 280-K stage in irradiatedn-type gallium arsenide

7 January 1991

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 66 (1) , 56-59
https://doi.org/10.1103/physrevlett.66.56

Abstract

Using optical-excitation minority-carrier deep-level transient spectroscopy we have studied the thermal annealing in n-GaAs of lattice-defect hole traps produced by 1.0-MeV proton irradiation at 120 K. We find that three hole traps, with electronic levels at 0.16 eV (of low concentration), at about 0.25 eV, and at 0.42 eV above the valence band, are removed in a thermal-annealing stage centered at about 280 K, consistent with the well known resistivity-annealing stage found at this temperature in electron-irradiated n-GaAs. This is the first determination of electronic energy levels of defects removed in the 280-K annealing stage of n-GaAs.

Keywords

This publication has 15 references indexed in Scilit:

Optical-MCTS of proton-irradiated n-type gallium arsenide
Solid State Communications, 1990
Behavior of electron-irradiation-induced defects in GaAs
Physical Review B, 1990
Low temperature annealing of deep electron traps produced by proton irradiation of n-GaAs
Semiconductor Science and Technology, 1990
Irradiation-induced defects inp-type GaAs
Physical Review B, 1986
Irradiation-induced defects in GaAs
Journal of Physics C: Solid State Physics, 1985
An electron-trapping defect level associated with the 235K annealing stage in electron-irradiation n-GaAs
Journal of Physics C: Solid State Physics, 1985
An annealing study of electron irradiation-induced defects in GaAs
Journal of Applied Physics, 1980
Annealing behavior of bulkn-GaAs irradiated by electrons at 77°K
Radiation Effects, 1971
Recovery of low temperature electron irradiation-induced damage inn-type gaas
Radiation Effects, 1970
Electrical Studies of Low-Temperature Neutron- and Electron-Irradiated Epitaxial n-Type GaAs
Journal of Applied Physics, 1969