| 1. |
- Passlack, M., et al.
(författare)
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Core-shell tfet developments and tfet limitations
- 2019
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Ingår i: 2019 International Symposium on VLSI Technology, Systems and Application, VLSI-TSA 2019. - 9781728109428
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Konferensbidrag (refereegranskat)abstract
- Tunneling field-effect transistors (TFET) based on a vertical gate-All-Around (VGAA) nanowire (NW) architecture with a core-shell (CS) structure have been explored for future CMOS applications. Performance predictions based on a tight-binding mode-space NEGF technique include a drive current \mathrm{I}-{\mathrm{o}\mathrm{n}} of 6.7\ \mu \mathrm{A} (NW diameter \mathrm{d}= 10.2\ \mathrm{nm}) at \mathrm{V}-{\mathrm{dd}}=0.3\ \mathrm{V} under low power (LP) conditions (\mathrm{I}-{\mathrm{off}}=1 \mathrm{pA}) for an InAs/GaSb CS TFET. This compares to Si nMOSFET \mathrm{I}-{\mathrm{on}} =2.3\ \mu \mathrm{A} at \mathrm{V}-{\mathrm{dd}}=0.55\ \mathrm{V}(\mathrm{d}=6\ \mathrm{nm}). On the experimental side, scaling of vertical CS NWs resulted in smallest dimensions of \mathrm{d}-{\mathrm{c}}= 17 nm (GaSb core) and \mathrm{t}-{\mathrm{sh}}=3 nm (InAs shell) for a total diameter of 23 nm. VGAA CS nFETs demonstrated drive current of up to 40\ \mu \mathrm{A} (\mathrm{V}-{\mathrm{d}}=0.3\ \mathrm{V}) and subthreshold swing \mathrm{SS}=40\mathrm{mV}/\mathrm{dec}(\mathrm{V}-{\mathrm{d}}=10\mathrm{mV}) for NW diameters between 35-50 nm. Although key TFET properties such as current drive and subthermal SS have been demonstrated using a VGAA CS architecture for the first time, experimental results still lag predictions. An intrinsic relationship between band-To band-Tunneling (BTBT) and \mathrm{D}-{\mathrm{it}} related trap assisted tunneling (TAT) was found which imposes challenging \mathrm{D}-{\mathrm{it}} requirements, in particular for LP \mathrm{I}-{\mathrm{off}} specifications. Complexity of fabrication and a material system foreign to CMOS manufacturing further impact prospects of TFET technology.
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| 2. |
- Vasen, T., et al.
(författare)
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InAs nanowire GAA n-MOSFETs with 12-15 nm diameter
- 2016
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Ingår i: 2016 IEEE Symposium on VLSI Technology, VLSI Technology 2016. - 9781509006373 ; 2016-September
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Konferensbidrag (refereegranskat)abstract
- InAs nanowires (NW) grown by MOCVD with diameter d as small as 10 nm and gate-All-Around (GAA) MOSFETs with d = 12-15 nm are demonstrated. Ion = 314 μA/μm, and Ssat =68 mV/dec was achieved at Vdd = 0.5 V (Ioff = 0.1 μA/μm). Highest gm measured is 2693 μS/μm. Device performance is enabled by small diameter and optimized high-k/InAs gate stack process. Device performance tradeoffs between gm, Ron, and Imin are discussed.
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| 3. |
- Vasen, T., et al.
(författare)
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Vertical Gate-All-Around Nanowire GaSb-InAs Core-Shell n-Type Tunnel FETs
- 2019
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Ingår i: Scientific Reports. - : Springer Science and Business Media LLC. - 2045-2322. ; 9:1
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Tidskriftsartikel (refereegranskat)abstract
- Tunneling Field-Effect Transistors (TFET) are one of the most promising candidates for future low-power CMOS applications including mobile and Internet of Things (IoT) products. A vertical gate-all-around (VGAA) architecture with a core shell (C-S) structure is the leading contender to meet CMOS footprint requirements while simultaneously delivering high current drive for high performance specifications and subthreshold swing below the Boltzmann limit for low power operation. In this work, VGAA nanowire GaSb/InAs C-S TFETs are demonstrated experimentally for the first time with key device properties of subthreshold swing S = 40 mV/dec (Vd = 10 mV) and current drive up to 40 μA/wire (Vd = 0.3 V, diameter d = 50 nm) while dimensions including core diameter d, shell thickness and gate length are scaled towards CMOS requirements. The experimental data in conjunction with TCAD modeling reveal interface trap density requirements to reach industry standard off-current specifications.
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