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Defect Generation and Diffusion Mechanisms in Al and Al-Cu

Published online by Cambridge University Press:  10 February 2011

C. - L. Liu ,
X.-Y. Liu  and
L. J. Borucki
C. - L. Liu
Affiliation:
Motorola, Inc.Predictive Engineering Lab Los Alamos, New Mexico
X.-Y. Liu
Affiliation:
Motorola, Inc.Predictive Engineering Lab Los Alamos, New Mexico
L. J. Borucki
Affiliation:
Motorola, Inc.Predictive Engineering Lab Mesa, Arizona
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Abstract

We describe a newly-developed defect generation mechanism, namely the grain boundary Frenkel pair (GBFP) model, and corresponding diffusion mechanisms during electromigration developed using atomic molecular statics (MS), Monte Carlo (MC), and molecular dynamics (MD) simulation techniques in Al and Al-Cu. We contend that large numbers of interstitials and vacancies exist at grain boundaries and both contribute to mass transport. Cu preferentially segregates to the interstitial sites at grain boundaries via a Frenkel pair generation process and reduces the overall grain boundary diffusivity due to the strong binding in the Al-Cu dimer. Predictions from our models are in excellent agreement with available experimental data and observations.

Keywords

61.72.Bb66.30.Jt66.30.Fq66.30.Qa
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 516: Symposium E – Low Dielectric Constant Materials IV , January 1998 , 189
Copyright
Copyright © Materials Research Society 1998

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