This thesis is organized as follows: • In chapter 2, our present understanding of the silicon vacancy and of the self-diffusion process is shortly reviewed. • In chapter 3 the First Principles Molecular Dynamics method is illustrated and discussed. • In chapter 4 the method used to compute the vacancy concentration is exposed. • In chapter 5 the results of calculations of the vacancy concentration and of the vacancy induced self-diffusion are exposed and compared with the available experimental data. • In the last chapter we present our conclusions.
Lattice Vacancies and Diffusion Processes in Crystalline Silicon: a First-Principle Molecular Dynamics Study
Enrico, Smargiassi
1990
Abstract
This thesis is organized as follows: • In chapter 2, our present understanding of the silicon vacancy and of the self-diffusion process is shortly reviewed. • In chapter 3 the First Principles Molecular Dynamics method is illustrated and discussed. • In chapter 4 the method used to compute the vacancy concentration is exposed. • In chapter 5 the results of calculations of the vacancy concentration and of the vacancy induced self-diffusion are exposed and compared with the available experimental data. • In the last chapter we present our conclusions.File in questo prodotto:
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https://hdl.handle.net/20.500.14242/118564
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URN:NBN:IT:SISSA-118564