Interactions of Point Defects and Impurities With Open Volume Defects in Silicon
Date
2001
Authors
Williams, James
Ridgway, Mark C
Conway, Martin
Wong-Leung, Jennifer
Williams, Ben C
Petravic, Mladen
Fortuna, Frank Nicholas
Ruault, M-O
Bernas, Harry
Journal Title
Journal ISSN
Volume Title
Publisher
Materials Research Society
Abstract
Ion implantation can produce open volume defects in silicon by one of two methods, either by H or He implantation followed by annealing to create a band of nanocavities and also by direct implantation to reasonably high doses, which results in a vacancy excess region at depths less than about half the projected ion range. This paper reviews three interesting aspects of open volume defects. In the first case, the very efficient gettering of fast diffusing metals to nanocavities formed by H-implantation is illustrated. In addition, the non-equilibrium behaviour of Cu3Si precipitation and dissolution at cavities is examined. The second example treats the interaction of irradiation-induced defects with nanocavities, particularly preferential amorphisation at open volume defects and subsequent cavity shrinkage. The final example illustrates the coalescence of excess vacancies into small voids on annealing and the use of gettering of Au to detect such open volume defects.
Description
Keywords
Keywords: Amorphization; Annealing; Band structure; Coalescence; Crystal impurities; Dissolution; Ion implantation; Irradiation; Nanostructured materials; Point defects; Precipitation (chemical); Shrinkage; Cavity shrinkage; Copper silicide; Nanocavities; Open volu
Citation
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Source
Materials Research Society Symposium Proceedings vol 647: Ion Beam Synthesis and Processing of Advanced Materials
Type
Conference paper