Optimization of Alloy Composition for High-Performance Strained-Si–SiGe N-Channel MOSFETs

Olsen, SH; O'Neill, AG; Driscoll, L.S.; Chattopadhyay, Sanatan; Kwa, Kelvin S. K.; Waite, A.M.; Tang, Y.T.; Evans, A G R; Zhang, Jing

doi:10.1109/ted.2004.830656

Cited by 21 publications

(21 citation statements)

References 24 publications

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“…However, the low interface trap density is an indication that Ge diffusion from the virtual substrate has not damaged the gate oxide quality. These results are in good agreement with previously published data which has demonstrated that D it is not significantly degraded until 30% Ge is used in the virtual substrate [3,10]. Long channel devices were used to determine electron and hole effective mobilities (l e,eff , l h,eff ) as a function of vertical effective electric field (E eff ), as shown in Fig.…”

Section: Resultssupporting

confidence: 90%

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Doubling speed using strained Si/SiGe CMOS technology

et al. 2006

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Section: Resultssupporting

confidence: 90%

“…1) [3]. While higher channel strain can lead to increased gains in p-channel devices, significant increases in hole mobility are also predicted using a Si 0.75 Ge 0.25 virtual substrate [4].…”

Section: Methodsmentioning

confidence: 87%

Doubling speed using strained Si/SiGe CMOS technology

et al. 2006

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“…1. According to previous experimental studies [1][2], the effects of interface trap are also considered in the numerical simulation. Fig.…”

Section: Simulated Results and Discussionmentioning

confidence: 99%

“…The introduction of strained Si and SiGe in CMOS technology is a means of improving the performance of Metal-Oxide-Semiconductor Field Effect Transistors (MOSFETs) in the deep submicron era [1][2]. A general approach to introduce biaxial tensile strain is using a virtual substrate of SiGe [1][2].…”

Section: Introductionmentioning

confidence: 99%

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A Quantum Hydrodynamic Simulation of Strained Nanoscale VLSI Device

2006

Computational Science – ICCS 2006

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Abstract. Strained silicon field effect transistor (FET) has been known for enhancing carrier mobility. The stained Si channel thickness, the Si 1-x Ge x composition fraction and the Si 1-x Ge x layer thickness are three crucial parameters for designing strained Si/SiGe MOSFET. Mobility enhancement and device reliability may be unnecessarily conservative. In this paper, numerical investigation of drain current, gate leakage and threshold voltage for strained Si/SiGe MOSFET are simulated under different device profiles. According to our results, the optimal combination of parameters are as follows: stained Si channel thickness is 7 nm, Ge content is 20%, and the Si 1-x Ge x layer thickness should be chosen between 20~50 nm.

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Biaxial s-Si Technology

Chaudhry

2013

Fundamentals of Nanoscaled Field Effect Transistors

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Optimization of Alloy Composition for High-Performance Strained-Si–SiGe N-Channel MOSFETs

Cited by 21 publications

References 24 publications

Doubling speed using strained Si/SiGe CMOS technology

Doubling speed using strained Si/SiGe CMOS technology

A Quantum Hydrodynamic Simulation of Strained Nanoscale VLSI Device

Biaxial s-Si Technology

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