Atomic-Layer Doping in Si1-xGex/Si/Si1-xGex Heterostructures by Two-Step Solid-Phase Epitaxy
- 1 April 1999
- journal article
- Published by IOP Publishing in Japanese Journal of Applied Physics
- Vol. 38 (4S) , 2424-2426
- https://doi.org/10.1143/jjap.38.2424
Abstract
A two-step solid-phase epitaxy (SPE) technique was developed to solve the problem of Sb segregation during the growth of Si1-x Ge x /Si/Si1-x Ge x heterostructures with Sb atomic-layer doping. At below 100°C Sb was deposited onto the Si1-x Ge x layer crystallized in the first SPE process to eliminate the diffusion of Sb during the second SPE process to form the Si1-x Ge x layer on the Sb layer. As a result, a sharp Sb depth profile and high electrical activation in the Sb-doped Si1-x Ge x layer was obtained. However, the number of modulation-doped carriers in the Si channel layer was small. Calculation of the carrier distribution between the channel and the doped layer suggested that the carrier density in the channel was low when the Sb-doping profile was sharp, thus precise control of the modulation-doped-carrier density by optimizing the thickness of the Sb-doped layer is crucial for fabricating modulation-doped field-effect transistors.Keywords
This publication has 13 references indexed in Scilit:
- Ultrahigh Electron Mobilities in Si1-xGex/Si/Si1-xGex Heterostructures with Abrupt Interfaces Formed by Solid-Phase EpitaxyJapanese Journal of Applied Physics, 1998
- Hybrid MBE growth and mobility limiting factors of n-channel modulation-doped systemsJournal of Crystal Growth, 1997
- Extremely high electron mobility in Si/SiGe modulation-doped heterostructuresApplied Physics Letters, 1995
- High-electron-mobility Si/SiGe heterostructures: influence of the relaxed SiGe buffer layerSemiconductor Science and Technology, 1992
- High electron mobility in modulation-doped Si/SiGe quantum well structuresApplied Physics Letters, 1991
- Extremely high electron mobility in Si/GexSi1−x structures grown by molecular beam epitaxyApplied Physics Letters, 1991
- High electron mobility in modulation-doped Si/SiGeApplied Physics Letters, 1991
- High hole mobility in strained Ge channel of modulation-doped p-Si0.5Ge0.5/Ge/Si1−xGex heterostructureJournal of Crystal Growth, 1991
- Two-dimensional electron gas properties of symmetrically strained Si/Si1−xGex quantum well structuresThin Solid Films, 1990
- Strain-Induced Two-Dimensional Electron Gas in Selectively DopedSuperlatticesPhysical Review Letters, 1985