Cooperative growth phenomena in silicon/germanium low-temperature epitaxy

19 December 1988

journal article
Published by AIP Publishing in Applied Physics Letters

Vol. 53 (25) , 2555-2557
https://doi.org/10.1063/1.100206

Abstract

A series of Si:Ge alloys and structures has been prepared by ultrahigh-vacuum chemical vapor deposition. Alloys of composition 0≤Ge/Si≤0.20 are readily deposited at T=550 °C. Commensurate, defect-free strained layers are deposited up to a critical thickness, whereupon the accumulated stress in the films is accommodated by the formation of dislocation networks in the substrate wafers. A cooperative growth phenomenon is observed where the addition of 10% germane to the gaseous deposition source accelerates silane’s heterogeneous reaction rate by a factor of 25. A model is proposed where Ge acts as a desorption center for mobile hydrogen adatoms on the Si[100] surface, accelerating heterogeneous silane pyrolysis by the enhanced availability of chemisorption sites.

Keywords

This publication has 9 references indexed in Scilit:

Low-temperature epitaxial growth of silicon by low-pressure chemical vapor deposition
Applied Physics Letters, 1988
Amorphous SiC/Si three-color detector
Applied Physics Letters, 1988
Plasma-enhanced deposition of high-quality epitaxial silicon at low temperatures
Applied Physics Letters, 1987
Oxygen-Doped Si Epitaxial Film (OXSEF)
Japanese Journal of Applied Physics, 1987
Nonequilibrium boron doping effects in low-temperature epitaxial silicon films
Applied Physics Letters, 1987
Low Temperature Silicon Epitaxy by Hot Wall Ultrahigh Vacuum/Low Pressure Chemical Vapor Deposition Techniques: Surface Optimization
Journal of the Electrochemical Society, 1986
Low-temperature silicon epitaxy by ultrahigh vacuum/chemical vapor deposition
Applied Physics Letters, 1986
Modulation doping in GexSi1−x/Si strained layer heterostructures
Applied Physics Letters, 1984
Epitaxial growth of silicon from SiH4 in the temperature range 800–1150°C
Solid-State Electronics, 1973