Due to extremely low off state current (IOFF) and excellent sub-threshold characteristics, the tunnel field effect transistor (TFET) has attracted a lot of attention for low standby power applications. In this work, we aim to increase the on state current (ION) of the device. A novel device architecture with a SiGe source is proposed. The proposed structure shows an order of improvement in ION compared to the conventional Si structure. A process flow adaptable to conventional CMOS technology is also addressed
Reducing power consumption is an important issue for integrated circuits in portable devices relying...
As the physical dimensions of the MOSFET have been scaling, the supply voltage has not scaled accord...
session 6: New Low-Power DevicesInternational audienceWe report the characterization of SiGe Tunnel ...
Though silicon tunnel field effect transistor (TFET) has attracted attention for sub-60 mV/decade su...
This paper presents a novel SiGe/Si tunneling field-effect transistor (TFET) which exploits line tun...
In this paper, a novel tunnel field-effect transistor (TFET) has been demonstrated. The proposed TFE...
Over the last 50 years, conventional scaling (Moore’s law) has provided continuous improvement in se...
Scaling of nanoelectronics consequently comes along with power consumption in integrated circuits, e...
We report on experimental and simulated results of tunneling field-effect transistors (TFETs) with a...
Reducing power consumption is an important issue for integrated circuits in portable devices relying...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
Driven by a strong demand for mobile and portable electronics, the chip market will undoubtedly imp...
In this thesis we mainly focus on silicon germanium based gate normal tunnel field effect transistor...
In this paper we report on our progress with SiGe gate-normal / line tunneling FETs, highlighting re...
This paper provides an experimental proof that both the ON-current ION and the subthreshold swing SS...
Reducing power consumption is an important issue for integrated circuits in portable devices relying...
As the physical dimensions of the MOSFET have been scaling, the supply voltage has not scaled accord...
session 6: New Low-Power DevicesInternational audienceWe report the characterization of SiGe Tunnel ...
Though silicon tunnel field effect transistor (TFET) has attracted attention for sub-60 mV/decade su...
This paper presents a novel SiGe/Si tunneling field-effect transistor (TFET) which exploits line tun...
In this paper, a novel tunnel field-effect transistor (TFET) has been demonstrated. The proposed TFE...
Over the last 50 years, conventional scaling (Moore’s law) has provided continuous improvement in se...
Scaling of nanoelectronics consequently comes along with power consumption in integrated circuits, e...
We report on experimental and simulated results of tunneling field-effect transistors (TFETs) with a...
Reducing power consumption is an important issue for integrated circuits in portable devices relying...
As the conventional metal oxide semiconductor field-effect transistor (MOSFET) keep scaling down to ...
Driven by a strong demand for mobile and portable electronics, the chip market will undoubtedly imp...
In this thesis we mainly focus on silicon germanium based gate normal tunnel field effect transistor...
In this paper we report on our progress with SiGe gate-normal / line tunneling FETs, highlighting re...
This paper provides an experimental proof that both the ON-current ION and the subthreshold swing SS...
Reducing power consumption is an important issue for integrated circuits in portable devices relying...
As the physical dimensions of the MOSFET have been scaling, the supply voltage has not scaled accord...
session 6: New Low-Power DevicesInternational audienceWe report the characterization of SiGe Tunnel ...