Open AccessA Statistical Model Describing Temperature Dependent Gettering of Cu in p-Type Si
Author(s) -
Eiji Kamiyama,
Koji Sueoka,
Jan Vanhellemont
Publication year - 2015
Publication title -
ecs journal of solid state science and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.488
H-Index - 51
eISSN - 2162-8777
pISSN - 2162-8769
DOI - 10.1149/2.0131507jss
Subject(s) - getter , wafer , materials science , silicon , atom (system on chip) , thermal , context (archaeology) , type (biology) , binding energy , thermal equilibrium , thermodynamics , lattice (music) , atomic physics , nanotechnology , physics , metallurgy , paleontology , ecology , optoelectronics , biology , computer science , acoustics , embedded system
A model is proposed describing quantitatively the temperature dependent gettering of Cu atoms in p-type Si wafers by taking into account the densities and the binding energies of all types of occupying sites, including the gettering ones. Binding energy in this context is defined as the decrease of the formation energy from the reference energy of the Cu atom when it is located at the T-site through which Cu atoms wander through the silicon lattice. By using a statistical approach, the model allows to predict the thermal equilibrium concentration of Cu atoms in each part of a wafer structure. The calculated results show good agreement with reported experimental observations. This model can also be applied to calculate thermal equilibrium concentrations of any contaminant
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