Molecular Dynamics Study of Stress-Induced Migration near Al Grain Boundary
Stress-induced migration near the grain boundary in Al thin interconnect is studied by means of an ab initio molecular dynamics simulation formulated on the basis of the effective-medium theory. The consistent grain boundary model is used, whose geometry is characterized by Σ-value. It is shown that...
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| Published in | Nihon Kikai Gakkai ronbunshū. A Vol. 62; no. 595; pp. 853 - 858 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
The Japan Society of Mechanical Engineers
01.01.1996
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0387-5008 1884-8338 |
| DOI | 10.1299/kikaia.62.853 |
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| Abstract | Stress-induced migration near the grain boundary in Al thin interconnect is studied by means of an ab initio molecular dynamics simulation formulated on the basis of the effective-medium theory. The consistent grain boundary model is used, whose geometry is characterized by Σ-value. It is shown that besides Σ-value, existence of high-energy sites near the grain-boundary is an important factor which promotes nucleation and growth of voids. In the bulk state, grain boundary decohesion due to coalescence of voids is dominant in the high-boundary-energy case, and growth of a small number of voids leads to breakage of the Al wire with the grain boundary of low energy and high consistency. If there exists a free surface, marked decrease in thickness near the grain boundary occurs and a narrow groove develops in the high-energy case. |
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| AbstractList | Stress-induced migration near the grain boundary in Al thin interconnect is studied by means of an ab initio molecular dynamics simulation formulated on the basis of the effective-medium theory. The consistent grain boundary model is used, whose geometry is characterized by Σ-value. It is shown that besides Σ-value, existence of high-energy sites near the grain-boundary is an important factor which promotes nucleation and growth of voids. In the bulk state, grain boundary decohesion due to coalescence of voids is dominant in the high-boundary-energy case, and growth of a small number of voids leads to breakage of the Al wire with the grain boundary of low energy and high consistency. If there exists a free surface, marked decrease in thickness near the grain boundary occurs and a narrow groove develops in the high-energy case. Stress-induced migration near the grain boundary in Al thin interconnect is studied by means of an ab initio molecular dynamics simulation formulated on the basis of the effective-medium theory. The consistent grain boundary model is used, whose geometry is characterized by capital sigma -value. It is shown that besides capital sigma -value, existence of high-energy sites near the grain-boundary is an important factor which promotes nucleation and growth of voids. In the bulk state, grain boundary decohesion due to coalescence of voids is dominant in the high-boundary-energy case, and growth of a small number of voids leads to breakage of the Al wire with the grain boundary of low energy and high consistency. If there exists a free surface, marked decrease in thickness near the grain boundary occurs and a narrow groove develops in the high-energy case. |
| Author | NAKATANI, Akihiro MAEGAWA, Yukihiro OGATA, Shigenobu SAITOH, Ken-ichi KITAGAWA, Hiroshi |
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| DOI | 10.1299/kikaia.62.853 |
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| References | (7)北村隆行•大谷隆一•山中哲哉•屋代如月,微小要素における粒界溝初成の原子シミュレーション,機論, 60-580,A(1994),2843. (10)宮内正視,配線破断メカニズムと配線材料,半導体研究,34(1991),41. (3)Kwok, T., Ho, P.S., and Yip, S., Molecular-dynamics Studies of Grain-boundary Diffusion. I.Structural Properties and Mobility of Point Defects, Phys.Rev., B, 29-10(1984), 5354. (5)Plimpton, S.J. and Wolf, E.D., Effect of Interatomic Potential on Simulated Grain-Boundary and Bulk Diffusion: A Molecular-Dynamics Study, Phys. Rev., B, 41-5(1990), 2712. (8)Foiles, S.M., Daw, M.S., Application of the Embedded Atom Method to Ni3Al J. Mater. Res., 2-1(1987), 5. (2)Jacobsen, K.W., Norskov, J.K., Puska, M.J., Interatomic Interactions in the Effective-Medium Theory, Phys. Rev., B, 35-14(1987), 7423. (4)Kwok, T., Ho, P.S., and Yip, S., Molecular-dynamic Studies of Grain-boundary Diffusion. II.Vacancy Migration, DifFusion Mechanism, and Kinetics, Phys. Rev., B, 29-10(1984), 5363. (1)岡林秀和,LSI Al配線のストレスマイグレーション,応用物理,59-11(1990),1461. (6)北村隆行•大谷隆一•山中哲哉,表面拡散と粒界拡散に基づく電子パッケージ内アルミ配線のストレス•マイグレーション破壊の数値シミュレーション,機論, 58-563,A(1993),1625. (9)Hoagland, R.G., Daw, M.S., Foiles, S.M., and Baskes, M.I., An Atomic Model of Crack Tip Deformation in Aluminum Using an Embedded Atom Potential, J. Mater. Res.,5-2(1990),313. |
| References_xml | – reference: (3)Kwok, T., Ho, P.S., and Yip, S., Molecular-dynamics Studies of Grain-boundary Diffusion. I.Structural Properties and Mobility of Point Defects, Phys.Rev., B, 29-10(1984), 5354. – reference: (1)岡林秀和,LSI Al配線のストレスマイグレーション,応用物理,59-11(1990),1461. – reference: (10)宮内正視,配線破断メカニズムと配線材料,半導体研究,34(1991),41. – reference: (5)Plimpton, S.J. and Wolf, E.D., Effect of Interatomic Potential on Simulated Grain-Boundary and Bulk Diffusion: A Molecular-Dynamics Study, Phys. Rev., B, 41-5(1990), 2712. – reference: (9)Hoagland, R.G., Daw, M.S., Foiles, S.M., and Baskes, M.I., An Atomic Model of Crack Tip Deformation in Aluminum Using an Embedded Atom Potential, J. Mater. Res.,5-2(1990),313. – reference: (4)Kwok, T., Ho, P.S., and Yip, S., Molecular-dynamic Studies of Grain-boundary Diffusion. II.Vacancy Migration, DifFusion Mechanism, and Kinetics, Phys. Rev., B, 29-10(1984), 5363. – reference: (7)北村隆行•大谷隆一•山中哲哉•屋代如月,微小要素における粒界溝初成の原子シミュレーション,機論, 60-580,A(1994),2843. – reference: (6)北村隆行•大谷隆一•山中哲哉,表面拡散と粒界拡散に基づく電子パッケージ内アルミ配線のストレス•マイグレーション破壊の数値シミュレーション,機論, 58-563,A(1993),1625. – reference: (8)Foiles, S.M., Daw, M.S., Application of the Embedded Atom Method to Ni3Al J. Mater. Res., 2-1(1987), 5. – reference: (2)Jacobsen, K.W., Norskov, J.K., Puska, M.J., Interatomic Interactions in the Effective-Medium Theory, Phys. Rev., B, 35-14(1987), 7423. |
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| SubjectTerms | Aluminum Aluminum Conductor Coalescence Computational geometry Computational Mechanics Computational methods Computer simulation diffusion Effective-Medium Theory Grain boundaries Grain Boundary Energy Grain Boundary Grooving Grain growth Mathematical models Molecular Dynamics Nucleation Stress-Induced Migration Thermal Stress |
| Title | Molecular Dynamics Study of Stress-Induced Migration near Al Grain Boundary |
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