Formation and growth of nanoindentation-induced high pressure phases in crystalline and amorphous silicon

Nanoindentation-induced formation of high pressure crystalline phases Si-III and Si-XII during unloading has been studied by Raman micro-spectroscopy, cross-sectional transmission electron microscopy XTEM , and postindentation electrical measurements. For indentation in crystalline silicon c-Si , rapid unloading 1000 mN/s results in the formation of amorphous silicon a-Si only; a result we have exploited to quench the formation of high pressure phases at various stages during unloading to study their formation and evolution. This reveals that seed volumes of Si-III and Si-XII form during the early stages of unloading with substantial volumes only forming after the pop-out event that occurs at about 50% of the maximum load. In contrast, high pressure phases form much more readily in an a-Si matrix, with substantial volumes forming without an observable pop-out event with rapid unloading. Postindentation electrical measurements have been used to further investigate the end phases and to identify differences between indentations which otherwise appear to be identical from the XTEM and Raman analyses. © 2007 American Institute of Physics. DOI: 10.1063/1.2781394