Quantum Confined Luminescence inSuperlattices
- 15 January 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 76 (3) , 539-541
- https://doi.org/10.1103/physrevlett.76.539
Abstract
Superlattices of have been grown at room temperature with atomic layer precision using state of the art molecular beam epitaxy and ultraviolet ozone treatment. Photoluminescence was observed at wavelengths across the visible range for Si layer thicknesses . The fitted peak emission energy is in accordance with effective mass theory for quantum confinement by the wide-gap barriers and also with the bulk amorphous Si band gap. Measurements of the conduction and valence band shifts by x-ray techniques correlate with , confirming the role of quantum confinement and indicating a direct band-to-band recombination mechanism.
Keywords
This publication has 18 references indexed in Scilit:
- Study of photoluminescence in nanocrystalline silicon/amorphous silicon multilayersApplied Physics Letters, 1995
- Visible light emission from crystallized hydrogenated amorphous germanium/silicon nitride multiquantum-well structuresSolid State Communications, 1994
- Optical properties of porous siliconSolid State Communications, 1994
- Fabrication and Raman scattering studies of one-dimensional nanometer structures in (110) siliconApplied Physics Letters, 1993
- Light Emission from SiliconScience, 1993
- Silicon-based optoelectronicsProceedings of the IEEE, 1993
- Silicon quantum wire array fabrication by electrochemical and chemical dissolution of wafersApplied Physics Letters, 1990
- Dynamic Scaling of Growing InterfacesPhysical Review Letters, 1986
- Amorphous Semiconductor SuperlatticesPhysical Review Letters, 1983
- Densities of amorphous Si films by nuclear backscatteringApplied Physics Letters, 1972