Study of altered layer formation in O2+-bombarded SiGe alloys using a novel crossed bevel technique
✍ Scribed by Wilkinson, D. K.; El-Gomati, M.; Prutton, M.; Cooke, G. A.; Dowsett, M. G.; Smith, N. S.
- Publisher
- John Wiley and Sons
- Year
- 1999
- Tongue
- English
- Weight
- 821 KB
- Volume
- 27
- Category
- Article
- ISSN
- 0142-2421
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✦ Synopsis
A novel 'crossed bevel' technique has been used for the investigation of the evolution of the altered layer that forms in a SiGe alloy under 8 keV O 2 Y ion bombardment. Auger microscopy (MULSAM instrument) and low-energy ion beam bevelling (500 eV O 2 Y ) were used to composition-depth profile a high-energy (8 keV O 2
Y ) bevel that contained the complete history of the altered layer. The sample was transferred in vacuo from the bevelling instrument to the Auger microscope. The formation of a Ge-rich layer 15 nm below the altered layer surface, with an associated near-surface Ge depletion, was observed, consistent with previous measurements. The growth of a surface oxygen implant was also seen. The importance of the development of this technique is that it will enable the powerful multispectral chemometric capability of the MULSAM instrument to be applied to altered layer redistribution in the future.