2011 International Electron Devices Meeting 2011
DOI: 10.1109/iedm.2011.6131661
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Electrostatics improvement in 3-D tri-gate over ultra-thin body planar InGaAs quantum well field effect transistors with high-K gate dielectric and scaled gate-to-drain/gate-to-source separation

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Cited by 139 publications
(80 citation statements)
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“…90 with fi ns as narrow as 30 nm and excellent characteristics have been demonstrated. 91 A summary of the state of the art of top-down fabricated InGaAs MOSFET technology for logic is presented in Figure 3c . This fi gure shows the ON-current that is obtained by fi xing the OFF-current at 100 nA/µm and the operating voltage at 0.5 V. 9 This fi gure of merit balances the requirements for high current drive at low voltage and good SCEs.…”
Section: From Planar To 3d Device Structuresmentioning
confidence: 99%
“…90 with fi ns as narrow as 30 nm and excellent characteristics have been demonstrated. 91 A summary of the state of the art of top-down fabricated InGaAs MOSFET technology for logic is presented in Figure 3c . This fi gure shows the ON-current that is obtained by fi xing the OFF-current at 100 nA/µm and the operating voltage at 0.5 V. 9 This fi gure of merit balances the requirements for high current drive at low voltage and good SCEs.…”
Section: From Planar To 3d Device Structuresmentioning
confidence: 99%
“…A pFET version has been demonstrated in the Si/Ge material system, Figure 1. For nFETs, the Ge concentration in the channel needs to be lower than the substrate concentration to get the desired conduction band offset: in this case a structure with a Si 1-x Ge x -channel on a Si 1-y Ge y Strain-Relaxed Buffer (SRB) can be imagined (x<y), besides various solutions in the III/V material systems (10)(11)(12). IFQW pFETs show excellent performance and electrostatics (14)(15)(16).…”
Section: Introductionmentioning
confidence: 99%
“…One enticing approach is to replace the Si channel with high intrinsic hole mobility Ge for p-channel device compared to III-V p-channel material. [8][9][10] Alternative approaches are different surface orientations to improve the carrier mobility, [11][12][13][14] strain engineering, 11,15,16 device architecture, 8,9,17 and optimal channel direction. [19][20][21][22][23] Research efforts are currently devoted towards investigation of the Ge as channel material, since higher intrinsic carrier mobility of Ge can provide a larger drive current, and its smaller bandgap can enable operation at a lower voltages.…”
Section: Introductionmentioning
confidence: 99%