T. Takewaki scite author profile

T. Takewaki

4Publications

57Citation Statements Received

15Citation Statements Given

How they've been cited

133

How they cite others

Affiliations

IBM (United States), NEC (Japan), Tohoku University

Publications

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Electrical Properties of Giant‐Grain Copper Thin Films Formed by a Low Kinetic Energy Particle Process

Nitta

Ohmi

Otsuki

et al. 1992

J. Electrochem. Soc.

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Formation of giant-grain copper thin films on SiO2 by a low-kinetic energy particle process followed by thermal annealing has been investigated. When Cu films are grown on SiO2 by the process under a sufficient amount of energy deposition, they exhibit almost perfect crystal orientation conversion from Cu(111) to Cu(100) upon thermal annealing. Such crystal orientation conversion is accompanied by the giant grain growth in the film as large as 100 i~m. With regard to these phenomena, the effects of the ion flux density and of the ion bombardment energy have been studied. It was found that the crystal orientation conversion and the accompanying grain growth are governed by the total energy deposited to the as deposited film. The Cu film resistivity decreases when the giant grain growth occurs in the film due to the increase in the grain boundary scattering. At room temperature, the resistivity of the Cu film having giant grains is 1.76 t~2-cm, almost equal to the bulk resistivity of 1.72 i~11 9 cm. When the temperature is reduced to a low temperature of 12 K, the resistivity becomes as low as 18.3 n~l -cm, which is almost one order of magnitude lower than that of the as deposited film also measured at 12 K (152 n~ 9 cm). Furthermore, it is confirmed that the interconnects formed by giant-grain Cu films can withstand from one to two orders of magnitude larger currents than A]-Si-Cu alloy interconnects, provided both interconnects exhibit the same electromigration lifetime. It is also shown that giant-grain Cu interconnects exhibit longer lifetime than the A1-Si-Cu alloy interconnects by three to four orders of magnitude under the same current stress. These experimental results demonstrate that the giant-grain Cu film is a very promising material to form low-resistivity, high-reliability interconnects for future subhalf micron ultralarge scale integrated circuits.) unless CC License in place (see abstract). ecsdl.org/site/terms_use address. Redistribution subject to ECS terms of use (see 138.251.14.35 Downloaded on 2015-04-12 to IP

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Quantitative analysis of correlation between insulator surface copper contamination and TDDB lifetime based on actual measurement

Oshida

Takewaki

Iguchi

et al. 2008

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Tradeoff Characteristics Between Resistivity and Reliability for Scaled-Down Cu-Based Interconnects

Yokogawa

Kikuta

Tsuchiya

et al. 2008

IEEE Trans. Electron Devices

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Prediction of early failure due to non-visual defect on time-dependent dielectric breakdown of low-k dielectrics: Experimental verification of a yield-reliability model

Yokogawa¹,

Oshida²,

Tsuchiya³

et al. 2008

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T. Takewaki

Electrical Properties of Giant‐Grain Copper Thin Films Formed by a Low Kinetic Energy Particle Process

Quantitative analysis of correlation between insulator surface copper contamination and TDDB lifetime based on actual measurement

Tradeoff Characteristics Between Resistivity and Reliability for Scaled-Down Cu-Based Interconnects

Prediction of early failure due to non-visual defect on time-dependent dielectric breakdown of low-k dielectrics: Experimental verification of a yield-reliability model

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