2002
DOI: 10.1016/s0167-9317(02)00802-x
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Low resistivity α-tantalum in Cu/CVD low-k (Orion™) integration

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Cited by 14 publications
(9 citation statements)
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“…Which crystal structure forms depends significantly on processing conditions. While most PVD processes lead to β-Ta films, especially when the film is deposited onto a dielectric material, careful adjustments of processing parameters as well as the use of a TaN underlayer or a CVD process were observed to produce the low resistivity α-Ta [Edelstein 2001, Donohue 2002, Hecker 2002, Demuynck 2003]. Different crystal structures within one film were found as well [Lee 1999, Kwon 2000.…”
Section: Simulation Of Resistance-based Void Sizesmentioning
confidence: 99%
“…Which crystal structure forms depends significantly on processing conditions. While most PVD processes lead to β-Ta films, especially when the film is deposited onto a dielectric material, careful adjustments of processing parameters as well as the use of a TaN underlayer or a CVD process were observed to produce the low resistivity α-Ta [Edelstein 2001, Donohue 2002, Hecker 2002, Demuynck 2003]. Different crystal structures within one film were found as well [Lee 1999, Kwon 2000.…”
Section: Simulation Of Resistance-based Void Sizesmentioning
confidence: 99%
“…It is reported that when Ta is sputtered on a TaN substrate, the a phase is formed with a preferential (1 1 0) texture [25,26]. When Ta is sputtered on SiO 2 , the b-phase of tantalum is readily formed and exhibits a (0 0 2) preferred orientation perpendicular to the film surface [27,28]. Fig.…”
Section: Discussionmentioning
confidence: 99%
“…The RS device fabrication started with a 300 mm diameter Si (001) substrate coated with a 100 nm thick thermal oxide. A standard Ta/TaN adhesion layer followed by Cu seed layer were then deposited on the oxide using industry standard physical vapor deposition (PVD) methods [58,59]. An electrochemical plating method was then utilized to grow a thick Cu film that was subsequently thinned to approximately 300 nm in thickness via chemical mechanical polishing [60,61].…”
Section: Device Fabricationmentioning
confidence: 99%