Ion-implanted GaAs and its subsequent annealing effects
Infrared spectroscopy is used to study ion-implanted GaAs and its subsequent annealing effects. The damage in the implantation region causes a change in dielectric constant resulting in an infrared reflection spectrum which shows the interference pattern of a multilayer structure. Reflection data are fitted by values calculated from a physically realistic model by using computer codes. The first part in this work studies the solid-state regrowth of amorphous GaAs made by Be implantation at -100/sup 0/C. The regrowth temperature is around 200/sup 0/C. The regrowth starts with a narrowing of the transition region and the transformation of the implanted layer from as-implanted amorphous (a-I) state to thermally-stabilized amorphous (a-II) state. The non-epitaxial recrystallization from both the surface and the interfacial region follows. The final regrown layer has a slightly higher refractive index than the crystalline value, indicating a high residual defect concentration. The temperature dependent regrowth velocity and the activation energy for this process are determined. The second part studies the free-carrier activation in Be-implanted GaAs. Free holes are activated with prolonged annealing at 400/sup 0/C (approx.50 hours) or a shorter time at higher temperature. The carrier contribution to the dielectric constant is calculated from the classical model and best fit to the reflection results show that the carrier profile can be approximated by a two half-Gaussians joined smoothly at their peaks. The peak position for the profile occurs deeper than that for the Be impurity profile measured by SIMS.
- Research Organization:
- University of Southern California, Los Angeles (USA)
- OSTI ID:
- 5884936
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
GALLIUM ARSENIDES
ION IMPLANTATION
ANNEALING
DAMAGE
DIELECTRIC PROPERTIES
HIGH TEMPERATURE
INFRARED SPECTRA
MEDIUM TEMPERATURE
ARSENIC COMPOUNDS
ARSENIDES
ELECTRICAL PROPERTIES
GALLIUM COMPOUNDS
HEAT TREATMENTS
PHYSICAL PROPERTIES
PNICTIDES
SPECTRA
360605* - Materials- Radiation Effects