Finite Element Analysis of Electromigration and Stress Induced Diffusion in Deformable Solids

A.F. Bower; L.B. Freund

doi:10.1557/PROC-391-177

Abstract

With a view to analyzing failure mechanisms in interconnects, we have developed a finite element method that may be used to compute the effects of diffusion and deformation in an electrically conducting, deformable solid. The analysis accounts for large changes in the shape of the solid due to surface diffusion, grain boundary diffusion, and elastic or inelastic deformation within the grains. To illustrate the capabilities of the method, we have analyzed void migration and collapse due to current induced surface diffusion; the drift of a strip of conducting solid on a substrate; and have calculated intergranular stresses and plastic deformation induced by electromigration in a passivated, polycrystalline interconnect line.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Chu, X. Bauer, C. L. and Mullins, W. W. 1997. Spreading of a void along a singular surface during electromigration: A failure mode. Applied Physics Letters, Vol. 70, Issue. 2, p. 194.

Suo, Z. 1997. Vol. 33, Issue. , p. 193.

CrossRef

Chu, X. Bauer, T C. L. Mullinst, T W. W. and Klinger, L. M. 1997. The Spreading of a Void on a Facet During Electromigration. MRS Proceedings, Vol. 472, Issue. ,

Shingubara, S. Kajiwara, S. Osaka, T. Sakaue, H. and Takahagi, T. 1997. Void Elongation Phenomena Observed in Polycrystalline Cu Interconnects at a High Current Density Stressing Conditions. MRS Proceedings, Vol. 473, Issue. ,

Bower and Craft 1998. ANALYSIS OF FAILURE MECHANISMS IN THE INTERCONNECT LINES OF MICROELECTRONIC CIRCUITS. Fatigue & Fracture of Engineering Materials & Structures, Vol. 21, Issue. 5, p. 611.

Gleixner, R. J. and Nix, W. D. 1999. A physically based model of electromigration and stress-induced void formation in microelectronic interconnects. Journal of Applied Physics, Vol. 86, Issue. 4, p. 1932.

Gray, L.J. Maroudas, D. Enmark, M.N. and D'Azevedo, E.F. 1999. Approximate Green's functions in boundary integral analysis. Engineering Analysis with Boundary Elements, Vol. 23, Issue. 3, p. 267.

Gungor, M. Rauf and Maroudas, Dimitrios 1999. Theoretical analysis of electromigration-induced failure of metallic thin films due to transgranular void propagation. Journal of Applied Physics, Vol. 85, Issue. 4, p. 2233.

Garikipati, Krishna Bassman, Lori and Deal, Michael 2001. A lattice-based micromechanical continuum formulation for stress-driven mass transport in polycrystalline solids. Journal of the Mechanics and Physics of Solids, Vol. 49, Issue. 6, p. 1209.

Averbuch, Amir Israeli, Moshe Ravve, Igor and Yavneh, Irad 2001. Computation for Electromigration in Interconnects of Microelectronic Devices. Journal of Computational Physics, Vol. 167, Issue. 2, p. 316.

Khenner, M. Averbuch, A. Israeli, M. and Nathan, M. 2001. Numerical Simulation of Grain-Boundary Grooving by Level Set Method. Journal of Computational Physics, Vol. 170, Issue. 2, p. 764.

Bastawros, Ashraf F. and Kim, Kyung-Suk 2001. Electric-Current Induced Crack Growth in Thin Films: Experimental Observations and Continuum Description. International Journal of Damage Mechanics, Vol. 10, Issue. 3, p. 195.

Shibutani, Tadahiro Kitamura, Takayuki and Kawamura, Futoshi 2002. Damage Process of Polycrystalline LSI Conductor Due to Atom Migration Induced by Electric Current and Stress. International Journal of Damage Mechanics, Vol. 11, Issue. 2, p. 113.

Orain, S. Barbe, J.-C. Federspiel, X. Legallo, P. and Jaouen, H. 2004. FEM-based method to determine mechanical stress evolution during process flow in microelectronics. Application to stress-voiding. p. 47.

Orain, S. Barbé, J.-C. Federspiel, X. Legallo, P. and Jaouen, H. 2007. FEM-based method to determine mechanical stress evolution during process flow in microelectronics, application to stress–voiding. Microelectronics Reliability, Vol. 47, Issue. 2-3, p. 295.

Baňas, L’ubomír and Nürnberg, Robert 2009. Phase field computations for surface diffusion and void electromigration in $${\mathbb{R}^3}$$. Computing and Visualization in Science, Vol. 12, Issue. 7, p. 319.

Maroudas, Dimitrios 2011. Surface morphological response of crystalline solids to mechanical stresses and electric fields. Surface Science Reports, Vol. 66, Issue. 8-9, p. 299.

Nürnberg, Robert and Sacconi, Andrea 2014. An unfitted finite element method for the numerical approximation of void electromigration. Journal of Computational and Applied Mathematics, Vol. 270, Issue. , p. 531.

Nürnberg, Robert and Sacconi, Andrea 2016. A fitted finite element method for the numerical approximation of void electro-stress migration. Applied Numerical Mathematics, Vol. 104, Issue. , p. 204.

Zhang, Jiaming and Huang, Peizhen 2022. Phase field simulation of the void destabilization and splitting processes in interconnects under electromigration induced surface diffusion. Modelling and Simulation in Materials Science and Engineering, Vol. 30, Issue. 1, p. 015003.

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Finite Element Analysis of Electromigration and Stress Induced Diffusion in Deformable Solids

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Finite Element Analysis of Electromigration and Stress Induced Diffusion in Deformable Solids

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