Identification of EL2 in GaAs

Identification of EL2 in GaAs

Combining electron paramagnetic resonance under optical excitation, deep level transient spectroscopy, electron irradiation, annealing, and quenching on LEC semi-insulating GaAs and lightly Si-doped material grown in the same way as the semi-insulating material, we have shown that (i) the irradiated...

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Bibliographic Details
Published in:Applied physics letters Vol. 47; no. 9; pp. 970 - 972
Main Authors: VON BARDELEBEN, H. J, STIEVENARD, D, BOURGOIN, J. C, HUBER, A
Format: Journal Article
Language:English
Published: Melville, NY American Institute of Physics 01-11-1985
Subjects:
Color centers and other defects
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electron paramagnetic resonance and relaxation
Exact sciences and technology
Magnetic resonances and relaxations in condensed matter, mössbauer effect
Physics
Gallium Arsenides
Complex defect
Deep level transient spectrometry
Annealing
Semiconductor materials
Antisite defect
Irradiation
Interstitial
Electron paramagnetic resonance
Inorganic compound
Electrons
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Summary:Combining electron paramagnetic resonance under optical excitation, deep level transient spectroscopy, electron irradiation, annealing, and quenching on LEC semi-insulating GaAs and lightly Si-doped material grown in the same way as the semi-insulating material, we have shown that (i) the irradiated material contains two types of defects related to the antisite AsGa, one As∇Ga, present before irradiation, identified to EL2 from its characteristic photoquenching behavior and the other As*Ga, created by the irradiation, stable under photoexcitation; (ii) As∇Ga anneals partially under a 850 °C thermal treatment followed by a quench and the remaining defects are transformed into As*Ga; (iii) further annealing around 120 °C converts As*Ga into As∇Ga, the process being thermally activated (0.5±0.2 eV). From these results and using observations of absorption on vibrational modes of the C-As interstitial pair in electron irradiated material, we are able to conclude that As*Ga is the isolated antisite and As∇Ga, i.e., EL2, is a complex of an As antisite and an As interstitial.
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ISSN:0003-6951
1077-3118
DOI:10.1063/1.95947