Band structure of-type GaAs with a strained Si interfacial layer
- 15 February 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 53 (7), 3879-3884
- https://doi.org/10.1103/physrevb.53.3879
Abstract
The band structure of a coherently strained Si layer (<15 Å) on GaAs has been calculated using the empirical pseudopotential method. The pseudopotential from factor of the strained Si layer is derived by considering that the pseudopotential of the strained layer is slightly modified by a factor which is proportional to the volume change of the unit cell. The band-structure calculation indicates that the band gap of the strained Si layer is 0.7 eV, which is substantially smaller than that of the bulk Si. A revised band-structure model for -type GaAs based on the above calculation is proposed, which agrees very well with the experimental results. This model implies that for the coherently strained Si interfacial layer, the Fermi level is unpinned not only at the Si-GaAs interface but also at the Al-Si interface.
Keywords
This publication has 19 references indexed in Scilit:
- Schottky barrier height dependence on the compensation doping in the interfacial Si layer of Al/Si/n:GaAs Schottky diodesJournal of Applied Physics, 1994
- Electronic-band parameters in strained alloys on substratesPhysical Review B, 1993
- A review of III–V semiconductor based metal-insulator-semiconductor structures and devicesThin Solid Films, 1993
- Band lineups and deformation potentials in the model-solid theoryPhysical Review B, 1989
- Wide range of Schottky barrier height for metal contacts to GaAs controlled by Si interface layersJournal of Vacuum Science & Technology B, 1988
- GaAs MIS structures with SiO2 using a thin silicon interlayerElectronics Letters, 1988
- Theoretical calculations of heterojunction discontinuities in the Si/Ge systemPhysical Review B, 1986
- Measurement of the band gap of GexSi1−x/Si strained-layer heterostructuresApplied Physics Letters, 1985
- Nonlocal pseudopotential calculations for the electronic structure of eleven diamond and zinc-blende semiconductorsPhysical Review B, 1976
- Band Structures and Pseudopotential Form Factors for Fourteen Semiconductors of the Diamond and Zinc-blende StructuresPhysical Review B, 1966