Journal ArticleDOI
Impact of a Spacer–Drain Overlap on the Characteristics of a Silicon Tunnel Field-Effect Transistor Based on Vertical Tunneling
TLDR
In this article, a detailed investigation of the effects of a spacer-drain overlap on the device characteristics of such silicon TFETs is reported, and it is demonstrated that a supersteep subthreshold swing and a significantly reduced off-state current IOFF can be achieved by appropriate designing of the spacer drain overlap.Abstract:
A tunnel field-effect transistor (FET) (TFET), in which the dominant carrier tunneling occurs in a direction that is in line with the gate electric field, shows great promise for sub-0.6-V operation. A detailed investigation, with the help of extensive device simulations, of the effects of a spacer-drain overlap on the device characteristics of such silicon TFET is reported in this paper. It is demonstrated that a supersteep subthreshold swing and a significantly reduced off-state current IOFF can be achieved by appropriate designing of the spacer-drain overlap. An investigation of the influence of the drain potential on the device characteristics reveals that the absence of a tunnel-resistance limited region results in long-channel metal-oxide-semiconductor FET-like output characteristics for such a structure. Short-channel effects, such as drain-induced barrier lowering, are also greatly suppressed in it. Results of the investigation on the scaling properties of such devices are also reported.read more
Citations
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Journal ArticleDOI
Tunnel Field-Effect Transistor With an L-Shaped Gate
TL;DR: In this paper, a new L-shaped gate tunnel field effect transistor (LG-TFET) is proposed and investigated by Silvaco Atlas simulation, and the gate and n+ pocket region overlap both in the vertical and the lateral directions resulting in an enhanced electric field.
Journal ArticleDOI
Design of High Performance Si/SiGe Heterojunction Tunneling FETs with a T-Shaped Gate
TL;DR: By using the T-shaped gate and SiGe pocket regions, the overall performance of the TFET is optimized and the proposed HTG-TFET can obtain the higher on-state current.
Journal ArticleDOI
Analog/RF Performance of T-Shape Gate Dual-Source Tunnel Field-Effect Transistor
TL;DR: Benefiting from the structural advantage, TGTFET obtains better DC/AC characteristics compared to UTFET and LTFET, and turns into a very attractive choice for the next generation of low-power and analog/RF applications.
Journal ArticleDOI
A high performance gate engineered charge plasma based tunnel field effect transistor
TL;DR: In this article, a double gate engineered dopingless tunnel field effect transistor (GEDL-TFET) was proposed, which has a dual material top gate and a tunneling gate.
Journal ArticleDOI
Impact of a Pocket Doping on the Device Performance of a Schottky Tunneling Field-Effect Transistor
TL;DR: In this article, the impact of using a pocket either at the source end or at both the source and the drain ends of a Schottky barrier tunneling FET (SB-TFET) was investigated.
References
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Journal ArticleDOI
Tunneling Field-Effect Transistors (TFETs) With Subthreshold Swing (SS) Less Than 60 mV/dec
TL;DR: In this paper, a 70-nm n-channel tunneling field effect transistor (TFET) with sub-threshold swing (SS) of 52.8 mV/dec at room temperature was demonstrated.
Journal ArticleDOI
Double-Gate Tunnel FET With High- $\kappa$ Gate Dielectric
Kathy Boucart,Adrian M. Ionescu +1 more
TL;DR: In this article, a double-gate tunnel field effect transistor (DG tunnel FET) with a high-kappa gate dielectric was proposed and validated using realistic design parameters, showing an on-current as high as 0.23 mA for a gate voltage of 1.8 V, an off-current of less than 1 fA (neglecting gate leakage), an improved average sub-threshold swing of 57 mV/dec, and a minimum point slope of 11 mV /dec.
Journal ArticleDOI
Band-to-band tunneling in carbon nanotube field-effect transistors.
TL;DR: How the structure of the nanotube is the key enabler of this particular one-dimensional tunneling effect is discussed, which is controlled here by the valence and conduction band edges in a bandpass-filter-like arrangement.
Proceedings Article
Germanium-source tunnel field effect transistors with record high I ON /I OFF
TL;DR: Tunnel field effect transistors (TFETs) with record high I ON /I OFF ratio (≫106) for lowvoltage (0.5V) operation are achieved by using germanium in the source region to achieve a small tunnel bandgap.
Journal ArticleDOI
Vertical tunnel field-effect transistor
TL;DR: In this paper, a vertical field effect transistor (FET) with a vertical gate controlling the band-to-band tunneling width is presented, and the operation of the device is shown by means of both experimental results as well as two-dimensional computer simulations.