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Título
Characterization and dynamics of Si self-interstitial clusters by self-learning kinetic Monte Carlo simulations
Autor
Director o Tutor
Año del Documento
2016
Titulación
Máster en Nanociencia y Nanotecnología Molecular
Résumé
Si is a semiconductor material whose relevance in the industry is undeniable, being
implemented in every generation of the transistor scaling over the last decades thanks
to their excellent properties and easy production. During the fabrication process it is
common to deal with the diffusion of impurity atoms in Si, which is critically influenced
by intrinsic defects such as self-interstitials and vacancies. Point defects tend to aggregate
forming small clusters and extended defects and therefore, the dopant diffusivity is
enhanced and leakage currents are increased in the final device.
The aim of this work is to study the energetic characteristics of small Si interstitials
clusters from an atomistic point of view, determining their formation enthalpies and
energy barriers for each cluster size. To do so, we have run simulations with the kinetic
Activation-Relaxation Technique. We have characterized each geometrical configuration
based on energetic and visual criteria, classifying the small clusters in chainlike, compact
or (111) configurations. The transition barriers between these structures have been also
determined. This information is useful to understand the behaviour of small clusters in
crystal and how they can evolve to extended defects. This study can also be applied to
other semiconductor materials.
Materias (normalizadas)
Semiconductores - Propiedades
Departamento
Departamento de Química Física y Química Inorgánica
Idioma
eng
Derechos
openAccess
Aparece en las colecciones
- Trabajos Fin de Máster UVa [6578]
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