Optically active erbium centers in silicon
- 15 July 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 54 (4) , 2532-2547
- https://doi.org/10.1103/physrevb.54.2532
Abstract
The intra-4f transition close to 1.54 μm of Er implanted into Si shows rich fine structure due to the crystal field of different defect types. Making use of the influence of implantation and annealing parameters, additional doping, temperature, and excitation power, we identify groups of lines belonging to different Er-related, optically active defects: the isolated interstitial Er, axial symmetry Er complexes with oxygen, and Er complex centers containing residual radiation defects. We show that the exciton binding energies as well as nonradiative quenching rates differ for different Er centers. Under optimum annealing conditions, the isolated interstitial Er has the highest photoluminescence yield at temperatures above 100 K. © 1996 The American Physical Society.Keywords
This publication has 27 references indexed in Scilit:
- Photoluminescence measurements on erbium-doped siliconSemiconductor Science and Technology, 1995
- On the local structure of optically active Er centers in SiApplied Physics Letters, 1995
- Room-temperature electroluminescence from Er-doped crystalline SiApplied Physics Letters, 1994
- Local structure of 1.54-μm-luminescence Er3+ implanted in SiApplied Physics Letters, 1992
- The electrical and defect properties of erbium-implanted siliconJournal of Applied Physics, 1991
- Impurity enhancement of the 1.54-μm Er3+ luminescence in siliconJournal of Applied Physics, 1991
- Microstructure of erbium-implanted SiApplied Physics Letters, 1991
- Characteristics of rare-earth element erbium implanted in siliconApplied Physics Letters, 1989
- 1.54-μm electroluminescence of erbium-doped silicon grown by molecular beam epitaxyApplied Physics Letters, 1985
- 1.54-μm luminescence of erbium-implanted III-V semiconductors and siliconApplied Physics Letters, 1983