Electromigration-induced grain rotation in anisotropic conducting beta tin

Electromigration-induced grain rotation in anisotropic conducting beta tin

Electromigration in beta-Sn has shown a 10% drop of resistance due to the anisotropic properties of the material. The drop was proposed due to reorientation of grains to reduce the resistance. The driving force as well as the atomic mechanism of grain rotation under electromigration has been conside...

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Veröffentlicht in:Applied physics letters 2005-06, Vol.86 (24), p.241902-241902-3
Hauptverfasser: Wu, Albert T., Gusak, A. M., Tu, K. N., Kao, C. R.
Format: Artikel
Sprache:eng
Schlagworte:
ANISOTROPY
CREEP
DIFFUSION
ELECTRIC CONDUCTIVITY
ELECTROPHORESIS
EXPERIMENTAL DATA
GRAIN BOUNDARIES
MATERIALS SCIENCE
STRESSES
SURFACES
TIN
TORQUE
VACANCIES
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Zusammenfassung:Electromigration in beta-Sn has shown a 10% drop of resistance due to the anisotropic properties of the material. The drop was proposed due to reorientation of grains to reduce the resistance. The driving force as well as the atomic mechanism of grain rotation under electromigration has been considered in this letter. We propose that the anisotropic resistivity causes the divergence of the vacancy fluxes at the grain boundaries and induces the vacancy fluxes to/from the free surface along the grain boundary. The vacancy gradients along the grain boundaries correspond to the gradients of stress. The opposite sign of the stress along grain boundaries generates a torque which leads to rotation of the grain by grain boundary diffusion or creep. The rate of rotation estimated on the base of the model seems to agree well with the observed experimental data.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.1941456