J. B. Helonde scite author profile

J. B. Helonde

3Publications

1Citation Statement Received

26Citation Statements Given

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Affiliations

Institut Teknologi Minaesa, Nagpur Institute of Technology

Publications

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A Model for Understanding Electromigration-Induced Void Evolution in Dual-Inlaid Cu Interconnect Structures

Pete

Helonde

Vairagar³

et al. 2011

Journal of Elec Materi

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Electromigration-induced void evolution in various dual-inlaid copper (Cu) interconnect structures was simulated by applying a phenomenological model assisted by Monte Carlo-based simulations, considering the redistribution of heterogeneously nucleated voids and/or pre-existing vacancy clusters at the Cu/dielectric cap interface during electromigration. The results indicate that this model can qualitatively explain the electromigration-induced void evolution observed during experimental in situ secondary-electron microscopy (SEM) investigations as well as in various other reported studies. The electromigration mechanism in Cu interconnect structures and differences in the peculiar electromigration-induced void evolution in various dual-inlaid Cu interconnect structures can be clearly understood based on this model. These findings warrant reinvestigation of technologically important electromigration mechanisms by developing rigorous models based on similar concepts.

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Electromigration-induced void evolution in upper and lower layer dual-inlaid Copper interconnect structures

Vairagar¹,

Pete²,

Mhaisalkar³

et al. 2012

Advances in materials Research

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Surface Void Migration in Copper (Cu) VLSI Interconnect

Pete

Helonde

Bhattacharya

2009

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Electromigration-induced void evolutions in various dual-inlaid Copper (Cu) interconnect structures were simulated by applying a phenomenological model resorting to Monte Carlo based simulations, which considers redistribution of heterogeneously nucleated voids and/or pre-existing vacancy clusters at the Cu/dielectric cap interface during electromigration. The results indicate that this model can qualitatively explain the electromigration-induced void evolutions observations in many studies reported by several researchers heretofore. These findings warrant need to reinvestigate technologically important electromigration mechanisms by developing rigorous models based on similar concepts.

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J. B. Helonde

A Model for Understanding Electromigration-Induced Void Evolution in Dual-Inlaid Cu Interconnect Structures

Electromigration-induced void evolution in upper and lower layer dual-inlaid Copper interconnect structures

Surface Void Migration in Copper (Cu) VLSI Interconnect

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