In this paper, using 2D TCAD simulations, the application of a dual material gate (DMG) for suppressing ambipolar conduction in a tunnel field effect transistor (TFET) is demonstrated. Using the proposed DMG concept, the ambipolar conduction can be effectively suppressed even if the drain doping is as high as that of the source doping. Achieving this symmetrical doping, without the ambipolar conduction in TFETs, gives the advantage of realizing both n-type and p-type devices with the same doping sequences. Furthermore, the output characteristics of the DMG TFET exhibit a good saturation when compared to that of the gate-drain underlap approach. This improved behavior of the DMG TFET makes it a good candidate for inverter based logic circuit...
Recently, tunnel field-effect transistors (TFETs) have been regarded as next-generation ultra-low-po...
The dopingless tunneling FET (DLTFET) has attracted more and more attention due to the reduction of ...
The reduction of power consumption is a crucial aspect of the design of submicron logic circuits, wh...
In this paper, using 2D TCAD simulations, the application of a dual material gate (DMG) for suppress...
International audienceThe effect of ambipolarity puts TFET in an unfavorable position and restricts ...
A comprehensive study on the degradation of inverter output voltage based on double-gated (DG) bilay...
Background: Power reduction is a serious design concern for submicron logic circuits, which can be a...
Tunnel FET (TFET) is a promising device for ultra-low power applications because it has the benefits...
478-485This paper investigates a hetero-junction vertical t-shape tunnel field effect transistor and...
Abstract Tunnel Field Effect Transistor (TFET) can be considered as one of the promising transistors...
Abstract Tunnel Field Effect Transistor (TFET) can be considered as one of the promising transistors...
In this work, a novel bandgap modulated gate drain underlap (BM-GDU) structure of tunnel-FET exhibit...
In this combined experiment and simulation study we investigate a SiGe/Si based gatenormal tunneling...
Nano-electronics motivates scientists around the world to build smaller and dynamic devices. However...
Abstract: Since, Dual Metal Gate (DMG) technology alone is not enough to rectify the problem of low ...
Recently, tunnel field-effect transistors (TFETs) have been regarded as next-generation ultra-low-po...
The dopingless tunneling FET (DLTFET) has attracted more and more attention due to the reduction of ...
The reduction of power consumption is a crucial aspect of the design of submicron logic circuits, wh...
In this paper, using 2D TCAD simulations, the application of a dual material gate (DMG) for suppress...
International audienceThe effect of ambipolarity puts TFET in an unfavorable position and restricts ...
A comprehensive study on the degradation of inverter output voltage based on double-gated (DG) bilay...
Background: Power reduction is a serious design concern for submicron logic circuits, which can be a...
Tunnel FET (TFET) is a promising device for ultra-low power applications because it has the benefits...
478-485This paper investigates a hetero-junction vertical t-shape tunnel field effect transistor and...
Abstract Tunnel Field Effect Transistor (TFET) can be considered as one of the promising transistors...
Abstract Tunnel Field Effect Transistor (TFET) can be considered as one of the promising transistors...
In this work, a novel bandgap modulated gate drain underlap (BM-GDU) structure of tunnel-FET exhibit...
In this combined experiment and simulation study we investigate a SiGe/Si based gatenormal tunneling...
Nano-electronics motivates scientists around the world to build smaller and dynamic devices. However...
Abstract: Since, Dual Metal Gate (DMG) technology alone is not enough to rectify the problem of low ...
Recently, tunnel field-effect transistors (TFETs) have been regarded as next-generation ultra-low-po...
The dopingless tunneling FET (DLTFET) has attracted more and more attention due to the reduction of ...
The reduction of power consumption is a crucial aspect of the design of submicron logic circuits, wh...