A computer simulation of stripe deterioration through electromigration

Huntington, H. B.; Kalukin, Andrew R.; Meng, Pu; Shy, Y. T.; Ahmad, Shakil

doi:10.1063/1.349593

Cited by 17 publications

(2 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…al. [28], and the basic features of electromigration for two cases, un-passivated (where surfaces act as sinks) and passivated (without sinks), were pointed out.…”

Section: Formulationmentioning

confidence: 99%

Dependence of electromigration lifetime on the square of current density

Hinode

Furusawa

Homma

1993

31st Annual Proceedings Reliability Physics 1993

View full text Add to dashboard Cite

To explain the conductor lifetime dependence on the square of the current density (Black's relationship), we propose a new model. The model is based on both experimental and computer-simulated results. The number of voids and hillocks formed per conductor length by electromigration are proportional to the current density. The relationship between the growth rate of voids (and hillocks) and the current density is derived from Fick's diffusion equation. That relationship is shown by numerically solving a one-dimensional diffusion equation with non-uniform diffusivity and a critical concentration for void/ hillock formation. The average growth rate of each void is observed to be proportional to the current density.The relationships of the number of voids and hillocks and the average void growth rate to the current density, are simultaneously incorporated during electromigration, resulting in the inverse square relationship between lifetime and current density.

show abstract

“…al. [28], and the basic features of electromigration for two cases, un-passivated (where surfaces act as sinks) and passivated (without sinks), were pointed out.…”

Section: Formulationmentioning

confidence: 99%

Dependence of electromigration lifetime on the square of current density

Hinode

Furusawa

Homma

1993

31st Annual Proceedings Reliability Physics 1993

View full text Add to dashboard Cite

show abstract

“…In technology, current-induced conductor failure, known as electromigration, has been modeled by an empirical formula introduced by Black [1]. The underlying physics has been addressed by several authors by atomic-scale theories [2] and by phenomenological models that seek to capture the key processes [3][4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Theoretical Studies of Electromigration in Polycrystalline Metal Stripes

Maroudas

Pantelides

1993

MRS Proc.

View full text Add to dashboard Cite

A systematic analysis is presented of the mesoscopic mechanisms that govern the structural evolution of polycrystalline conductors under the action of applied electric fields. A recently derived set of general dynamical mesoscopic equations is specialized to study the behavior of microstructural building blocks. Scaling analysis is presented for the dynamics of the corresponding transport and micromechanical processes associated with a wide range of time scales. Results of numerical simulations are presented for vacancy migration along grain boundaries, evolution of current-induced stresses, surface diffusion, and void stability and growth. The calculated dependence of characteristic times on current density is discussed.

show abstract