Material growth and characterization for solid state devices
Abstract
During this period InGaAs and InGaAsP were grown on (100)InP by liquid phase electroepitaxy (LPEE). Results of the epitaxial growth of InGaAs on sputtered quartz masked substrates are presented. The resulting surface morphology can be related to the current density distribution near the edges of a masked pattern. The quaternary InGaAs was grown with compositions corresponding to 1.3 micron and 1.5 micron emission wavelengths. Growth rates were found to be linearly dependent upon current density, and a strong dependence upon composition was noted. These compositions lie in the miscibility gap region of the alloy phase diagram at the 645 C growth temperature. Growths were performed at 685 C to avoid the miscibility gap. Epilayers were characterized by photoluminescence, X-ray diffraction, secondary ion mass spectrometry, and Hall effect measurements. Aluminum oxide was deposited on silicon and InGaAs substrates for the characterization of this material as an insulator in a field effect transistor structure. It was determined that the results did not warrant further work with the deposition from an aluminum isopropoxide source. A metallographic vapor phase epitaxy system installation is nearing completion for use in hybrid III-V semiconductor epilayer growths.
- Publication:
-
Report
- Pub Date:
- March 1987
- Bibcode:
- 1987ncat.rept.....C
- Keywords:
-
- Carrier Mobility;
- Electroepitaxy;
- Field Effect Transistors;
- Gallium Arsenides;
- Indium Arsenides;
- Indium Phosphates;
- Liquid Phase Epitaxy;
- Semiconductors (Materials);
- Aluminum Oxides;
- Capacitance-Voltage Characteristics;
- Current Density;
- Hall Effect;
- Insulators;
- Miscibility Gap;
- Substrates;
- Surface Properties;
- Vapor Phase Epitaxy;
- X Ray Diffraction;
- Solid-State Physics