Title :
Control of beryllium redistribution in InP grown by gas source molecular beam epitaxy
Author :
Pagnod-Rossiaux, W. ; Bonnevie, D. ; Boulou, M. ; Gaborit, F. ; Chouquais, F. ; Goldstein, L.
Author_Institution :
ALCATEL-ALSTHOM RECHERCHE, Marcoussis, France
Abstract :
Beryllium is widely used in molecular beam epitaxy (MBE) as a p-type dopant. The authors report on the diffusion of Be in InP with beryllium concentrations in excess of 1×1019 cm-3 during growth by gas-source MBE. Diffusion profiles are analyzed by secondary ion mass spectrometry and C(V) profiling. The dependency of diffusion on the type and doping of InP is investigated. It was found experimentally that diffusion depths are mainly correlated to the heavily-doped layer thickness, and strongly depend on the type and doping level of the host material. This is consistent with a mechanism of fast diffusing positively charged interstitial, further incorporated as a substitutional, with an electrical activity close to 1, as shown by C(V) profiling. Diffusion of Be in InP:Fe shows a peculiar iron out-diffusion induced by the excess interstitial Be
Keywords :
III-V semiconductors; beryllium; chemical beam epitaxial growth; diffusion; impurity distribution; indium compounds; secondary ion mass spectra; semiconductor doping; semiconductor epitaxial layers; semiconductor growth; Be concentration; Be redistribution; InP:Be; InP:Fe,Be; MBE; fast diffusing positively charged interstitial; gas source molecular beam epitaxy; p-type dopant; secondary ion mass spectrometry; semiconductor; Conducting materials; Gallium arsenide; High definition video; Indium phosphide; Ionization; Iron; Molecular beam epitaxial growth; Temperature distribution; Virtual manufacturing; Zinc;
Conference_Titel :
Indium Phosphide and Related Materials, 1993. Conference Proceedings., Fifth International Conference on
Conference_Location :
Paris
Print_ISBN :
0-7803-0993-6
DOI :
10.1109/ICIPRM.1993.380674
