2007 IEEE International Electron Devices Meeting 2007
DOI: 10.1109/iedm.2007.4418915
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High-Performance and Low-Power Bulk Logic Platform Utilizing FET Specific Multiple-Stressors with Highly Enhanced Strain and Full-Porous Low-k Interconnects for 45-nm CMOS Technology

Abstract: technology. To achieve aggressively-scaled active, poly, conWe present an aggressively-scaled high-performance and tact, and metal pitches and thus to create 2x pattern density, low-power bulk CMOS platform technology aiming at large-scale high-NA 193-nm immersion lithography was used to expose the (multi-core) high-end use with 45-nm ground rule. By utilizing a critical layers. The FEOL process flow in which MST is the booster high-epsilon offset spacer and FET specific multiple-stressors for improving the pe… Show more

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Cited by 18 publications
(6 citation statements)
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“…Thus, strain engineering is used to enhance the performance of both n-channel MOS and p-channel MOS devices in modern CMOS nodes below 90 nm [14], [15]. For planar devices and SOI, there has been extensive research on the effects of strain as a performance booster [16]- [19], and recently, this interest has extended to silicon nanowires [12], [20].…”
Section: Strain As Booster Of Carrier Mobilitymentioning
confidence: 99%
“…Thus, strain engineering is used to enhance the performance of both n-channel MOS and p-channel MOS devices in modern CMOS nodes below 90 nm [14], [15]. For planar devices and SOI, there has been extensive research on the effects of strain as a performance booster [16]- [19], and recently, this interest has extended to silicon nanowires [12], [20].…”
Section: Strain As Booster Of Carrier Mobilitymentioning
confidence: 99%
“…This is because smaller space also means narrow cSEL layer, or narrow eSiGe stressor trench, or both. In [3], up to 7.8% degradation was seen for different poly spaces;…”
Section: Leakage Reduction In Transistor Level-cmos and Srammentioning
confidence: 98%
“…Typical device specifications for 65 nm to 32 nm technologies, for both Standard Logic for General Purposes, Low-Power and High Performances. Data from[1,[3][4][5].…”
mentioning
confidence: 99%
“…High-k (hk) spacers have been studied in conventional planar MOSFETs and fin-shaped field effect transistors (FinFETs) to electrically induce extension regions and this technique was found to suppress short channel effects. 12,13) In our previous work, 14) we have shown by simulations that by using a single layer hk spacer, the I ON and SS of pTFET with 1 nm silicon dioxide (SiO 2 ) gate dielectric are enhanced, without deterioration of OFF state current (I OFF ). We have proposed the use of double dielectric spacer in nchannel TFET (nTFET) to improve the DC performance.…”
Section: Introductionmentioning
confidence: 99%