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Kinetics of formation of the midgap donor EL2 in neutron irradiated GaAs materials

Journal Article · · J. Appl. Phys.; (United States)
DOI:https://doi.org/10.1063/1.333797· OSTI ID:6140790
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Fast neutron irradiation of n-GaAs mainly induces two deep electron traps in the band gap. The first of these is referred to as EL6 and has an energy level at E/sub c/ -0.35 eV, where E/sub c/ is the conduction band minimum; the second one has a wide energy distribution around E/sub c/ -0.5 V and is referred to as the U band. The annealing kinetics of these two levels is studied, and it is found that EL6 vanishes by a pair-defect (short-range) type recombination while the U band anneals by a long range migration process. Both annealing processes can be observed between 400 and 500 /sup 0/C. In this annealing temperature range, the concentration of deep donor level EL2 (E/sub c/ -0.75 eV) increases with temperature. It is suggested that the defect giving rise to the EL2 level is created during irradiation but that medium range (tens to hundreds of A) interactions with other neighboring defects strongly influence the electric properties of the overall defect, which is then detected as the U band. Due to long range migration, annealing reduces medium range interaction and the U band disappears in favor of the well-defined EL2 level (E/sub c/ -0.75 eV). This allows us to reconcile the apparent contradiction between DLTS (deep level transient spectroscopy) and EPR (electron paramagnetic resonance) and to identify the EL2 level with the EPR signal attributed to the As/sub Ga/ defect.

Research Organization:
Laboratoires d'Electronique et de Physique Appliquee 3, avenue Descartes, 94450 Limeil-Brevannes, France
OSTI ID:
6140790
Journal Information:
J. Appl. Phys.; (United States), Journal Name: J. Appl. Phys.; (United States) Vol. 56:10; ISSN JAPIA
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360605* -- Materials-- Radiation Effects
ANNEALING
ARSENIC COMPOUNDS
ARSENIDES
DATA
ENERGY GAP
ENERGY LEVELS
EXPERIMENTAL DATA
GALLIUM ARSENIDES
GALLIUM COMPOUNDS
HEAT TREATMENTS
IMPURITIES
INFORMATION
NEUTRON FLUX
NUMERICAL DATA
PHYSICAL RADIATION EFFECTS
PNICTIDES
RADIATION EFFECTS
RADIATION FLUX
RECOMBINATION
TRAPS