2016 IEEE International Electron Devices Meeting (IEDM) 2016
DOI: 10.1109/iedm.2016.7838456
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Vertically stacked gate-all-around Si nanowire CMOS transistors with dual work function metal gates

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Cited by 118 publications
(45 citation statements)
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“…x Þ is the cross-correlation power spectrum of M n 0 l 0 nl ½Dðs; xÞ and M n 0 g 0 ng ½Dðs 0 ; x 0 Þ; an explicit expression for S n 0 ;l 0 g 0 n;lg ðq s ; q 0 x Þ will be discussed below. Equation (14) has been written for a continuous q x , which implies a large normalization length along the x direction; Eq. 14also assumes that the length D 0 of the perimeter of the interface I 0 in the device cross-section is much larger than the correlation length K of the D(s, x) process, which is a very reasonable approximation for most devices of practical interests and for a K in the range of 1 to 2 nm.…”
Section: Modeling Of Surface Roughness Scatteringmentioning
confidence: 99%
See 1 more Smart Citation
“…x Þ is the cross-correlation power spectrum of M n 0 l 0 nl ½Dðs; xÞ and M n 0 g 0 ng ½Dðs 0 ; x 0 Þ; an explicit expression for S n 0 ;l 0 g 0 n;lg ðq s ; q 0 x Þ will be discussed below. Equation (14) has been written for a continuous q x , which implies a large normalization length along the x direction; Eq. 14also assumes that the length D 0 of the perimeter of the interface I 0 in the device cross-section is much larger than the correlation length K of the D(s, x) process, which is a very reasonable approximation for most devices of practical interests and for a K in the range of 1 to 2 nm.…”
Section: Modeling Of Surface Roughness Scatteringmentioning
confidence: 99%
“…7,9,11 In particular, for CMOS generations beyond the 7-nm node, gate-all-around (GAA) nanowire FETs appear to be the most promising architecture. 1,2,5,[12][13][14][15] However, nanowire transistors still face significant challenges and, due to the high surface-tovolume ratio, the performance of these devices is strongly influenced by surface roughness (SR) and interface defects. [16][17][18][19][20][21] In this framework, an accurate description of interface effects in order to predict the device performance is required, and the aim of this work is to present a new model for SR scattering in MuGFETs with arbitrary cross-sections.…”
Section: Introductionmentioning
confidence: 99%
“…Hence, it could conceivably be hypothesized that the two recent successful industrial attempts to build NWTs with cross-sectional AR ≈ 1 (circular NWT [8,9] and AR ≈ 3.5 (sheet NWT) [10] have overlooked the fact that AR contributes to NWT performance (in this study, the term "sheet NWT" refers to any NWT where 0.5 ≥ AR ≥ 2). Figure 5 compares the effect of 9 cross-section aspect ratios for Si NWTs on the I D -V G curves.…”
Section: Resultsmentioning
confidence: 99%
“…It is noteworthy that one of the key determinants of device performance has been established as the ratio of the major axis to the minor axis (namely, cross-section aspect ratio or AR). Nevertheless, industrial players have tended to only manufacture NWTs in two different versions: circular cylinder (or elliptical) NWTs [8,9] and nanosheet (or nanoslab) FETs [10]. Each version has its own trade-offs; however, the key difference between these two versions is the cross-sectional AR.…”
Section: Introductionmentioning
confidence: 99%
“…The FinFETs have become the mainstream logic devices for a few nodes [52]. The GAA nano-Si wire FETs and Si nano-sheets FETs have been reported by the research teams using industrial processing facility [53][54][55][56][57][58]. The relation between Vt and the work function of the gate electrode for FinFETs with undoped channel is different to that for the planar MOSFETs.…”
Section: Metal Gate For Finfets and Gaa-fetsmentioning
confidence: 99%