Publication Date:
2011-08-19
Description:
Evidence of silicon diffusion in 100-A CoSi2 layers grown by room-temperature codeposition and annealing on Si(111) substrates was from Auger peak height ratios, which were interpreted in terms of a Si overlayer. It was found that this layer could be removed by chemical etching and reformed by subsequent annealing. By measuring the intensity of the plasmon energy loss peak associated with the CoL23 VV Auger peak, the effective thickness of the Si overlayer was measured as a function of annealing temperature, by calibrating the plasmon loss data against known overlayer thicknesses on unannealed samples. Similar results were found for samples grown both with and without the addition of a 10-A Si cap to prevent pinhole formation in the CoSi2; moreover, Si diffusion was also observed at temperatures well below the point where pinhole formation is first found, suggesting that Si diffusion does not depend on the presence of observable pinholes.
Keywords:
SOLID-STATE PHYSICS
Type:
Applied Physics Letters (ISSN 0003-6951); 54; 1314-131
Format:
text
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