M. Ieong scite author profile

In the next decade, advances in complementary metal-oxide semiconductor fabrication will lead to devices with gate lengths (the region in the device that switches the current flow on and off) below 10 nanometers (nm), as compared with current gate lengths in chips that are now about 50 nm. However, conventional scaling will no longer be sufficient to continue device performance by creating smaller transistors. Alternatives that are being pursued include new device geometries such as ultrathin channel structures to control capacitive losses and multiple gates to better control leakage pathways. Improvement in device speed by enhancing the mobility of charge carriers may be obtained with strain engineering and the use of different crystal orientations. Here, we discuss challenges and possible solutions for continued silicon device performance trends down to the sub-10-nm gate regimes.

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Threshold voltage control in NiSi-gated MOSFETs through silicidation induced impurity segregation (SIIS)

Kedzierski

Boyd²,

Ronsheim³

et al.

120

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Silicon Device Scaling to the Sub-10-nm Regime

et al. 2005

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FinFET design considerations based on 3-D simulation and analytical modeling

Pei

Kedzierski

Oldiges³

et al. 2002

IEEE Trans. Electron Devices

281

108

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M. Ieong

Three-dimensional integrated circuits

Silicon Device Scaling to the Sub-10-nm Regime

Threshold voltage control in NiSi-gated MOSFETs through silicidation induced impurity segregation (SIIS)

Silicon Device Scaling to the Sub-10-nm Regime

FinFET design considerations based on 3-D simulation and analytical modeling

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