2000
DOI: 10.1016/s0026-2714(99)00209-7
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Microstructure and electromigration in copper damascene lines

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Cited by 67 publications
(28 citation statements)
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“…With continuing void growth, the line resistance increases, eventually leading to failure of the line. The corresponding failure times usually follow a lognormal distribution with the median lifetime depending on the quality of the interface, which controls the mass transport [Hu 1999, Arnaud 2000, Hau-Riege 2001, Ogawa 2002b, Meyer 2002, Hauschildt 2004a, Hauschildt 2004b. Since EM experiments are conducted at higher current densities and temperatures compared to operating conditions, extrapolations are needed to assess reliability at operating conditions.…”
Section: Chapter 1: Introductionmentioning
confidence: 99%
“…With continuing void growth, the line resistance increases, eventually leading to failure of the line. The corresponding failure times usually follow a lognormal distribution with the median lifetime depending on the quality of the interface, which controls the mass transport [Hu 1999, Arnaud 2000, Hau-Riege 2001, Ogawa 2002b, Meyer 2002, Hauschildt 2004a, Hauschildt 2004b. Since EM experiments are conducted at higher current densities and temperatures compared to operating conditions, extrapolations are needed to assess reliability at operating conditions.…”
Section: Chapter 1: Introductionmentioning
confidence: 99%
“…w and h are the linewidth and height, and d 50 is the mean metal grain diameter. In copper interconnect, diffusion along the interface between the copper and the nitride caplayer generally dominates D A ͑Refs.…”
Section: ͪ ͑1͒mentioning
confidence: 99%
“…If t f is distributed lognormally then log͑t f ͒ is normally distributed and may be described by parameters , the mean of log͑t f ͒, and TTF its standard deviation. Almost all EM failure data is plotted on lognormal paper and consequently tends to come quoted with it a median value t 50 equal to exp͑͒ and a value of TTF . The pdf for a lognormally distributed t f is given by ͓LN͑ , TTF ͔͒…”
Section: Gamma Versus Lognormalmentioning
confidence: 99%
“…With j =20 mA m −2 , the jl product for a 50 m line is 10 4 A cm −1 which is comfortably greater than that suggested for void nucleation in copper lines. 33,34 We assume that grain diameters are distributed lognormally, with a median value of d 50 = 0.5 m and lognormal deviation of d = 0.36, values obtained for 0.35 m lines, 35 although we shall regard these parameters as variables to some extent.…”
Section: Failure Time Distributionmentioning
confidence: 99%