Digest. International Electron Devices Meeting,
DOI: 10.1109/iedm.2002.1175924
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High performance 30 nm bulk CMOS for 65 nm technology node (CMOS5)

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Cited by 15 publications
(6 citation statements)
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“…The stress in n-MOSFETs does not increase the v inj as in the p-MOS devices, consequently the stress-induced I ON improvements are larger in p-MOS transistors than in n-MOS ones [78]. [54,56,57,[92][93][94][95][96][97][98][99] Quite interestingly, the simulation prediction of a stressinduced improvement of the I ON disadvantage of pMOSFETs is supported by the experimental data. In fact Fig.…”
Section: Simulation Results For Nano-scale Mosfetsmentioning
confidence: 81%
“…The stress in n-MOSFETs does not increase the v inj as in the p-MOS devices, consequently the stress-induced I ON improvements are larger in p-MOS transistors than in n-MOS ones [78]. [54,56,57,[92][93][94][95][96][97][98][99] Quite interestingly, the simulation prediction of a stressinduced improvement of the I ON disadvantage of pMOSFETs is supported by the experimental data. In fact Fig.…”
Section: Simulation Results For Nano-scale Mosfetsmentioning
confidence: 81%
“…The amount of impurity diffusion is strongly affected by spike RTA. 11) Therefore, the impurity profiles of in situ doped boron before and after spike RTA are shown for comparison in Fig. 5.…”
Section: Shallow Junction Propertymentioning
confidence: 99%
“…The inefficiently scaled spacer width is fixed at 30 nm. 5,15,17) Four values for the gate dielectric or the offset spacer dielectric were used, including those of air (" r ¼ 1), SiO 2 (" r ¼ 3:9), Si 3 N 4 (" r ¼ 7:5), Al 2 O 3 (" r ¼ 9), HfO 2 (" r ¼ 25) and TiO 2 (" r ¼ 80), to study the fringing electric field effect on device performance.…”
Section: Simulation Proceduresmentioning
confidence: 99%
“…Therefore, most of the advanced nanoscale devices reported previously have a large spacer width that is comparable or larger than the gate length. [14][15][16][17][18][19] This leads to the situation in which the fringing electric field becomes a very important factor in short-channel devices because of a hardly scaled offset spacer width. In addition, the wide offset spacer will increase the parasitic series source/drain resist-ance R S/D , resulting in the further degradation of transistor performance.…”
Section: Introductionmentioning
confidence: 99%