Title :
Multi-layer conduction in epitaxial InSb grown on GaAs substrates
Author :
Ahoujja, M. ; Mitchel, William C. ; Michel, Eric ; Razeghi, Manijeh
Author_Institution :
Inst. of Technol., Wright-Patterson AFB, OH, USA
Abstract :
Electron transport properties of molecular beam epitaxy grown InSb on GaAs substrates are studied using the conventional Hall effect and the mobility spectrum technique. The latter technique reveals the existence of at least three different conducting channels in InSb. Our analysis of the Hall data and the mobility spectrum shows that the conduction in InSb is determined by a highly dislocated interfacial layer between the InSb layer and the GaAs substrate, a high mobility bulk-like InSb layer, and, possibly, a surface layer
Keywords :
Hall effect; III-V semiconductors; carrier mobility; electrical conductivity; gallium arsenide; indium compounds; semiconductor epitaxial layers; surface conductivity; GaAs substrates; Hall effect; SiC; conducting channels; electron transport; epitaxial InSb; high mobility bulk-like InSb layer; highly dislocated interfacial layer; mobility spectrum technique; molecular beam epitaxy grown InSb; multi-layer conduction; surface layer; Electromagnetic measurements; Electron mobility; Gallium arsenide; Hall effect; Infrared detectors; Magnetic field measurement; Molecular beam epitaxial growth; Quantum computing; Substrates; Temperature distribution;
Conference_Titel :
Semiconducting and Insulating Materials, 1998. (SIMC-X) Proceedings of the 10th Conference on
Conference_Location :
Berkeley, CA
Print_ISBN :
0-7803-4354-9
DOI :
10.1109/SIM.1998.785103
