This paper demonstrates and experimentally reports the highest ever performance boosting in strained silicon-nanowire homojunction TFETs with negative capacitance, provided by matched PZT capacitors. Outstanding enhancements of Ion, gm, and overdrive are analyzed and explained by most effective reduction of body factor, m VT, which greatly amplify the control on the surface potential TFET, which dictates a highly non-linear BTBT regime. We achieve a full non-hysteretic negative-capacitance switch configuration, suitable for logic applications, and report on-current increase by a factor of 500x, voltage overdrive of 1V, transconductance increase of up to 5×103x, and subthreshold swing improvement
One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly h...
Owing to the fundamental physics of the Boltzmann distribution, the ever-increasing power dissipatio...
The IoT is one of the most trending businesses of modern times and has already opened a new world of...
This paper demonstrates and experimentally reports the highest ever performance boosting in strained...
This work experimentally demonstrates that the negative capacitance effect can be used to significan...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Nanowire tunnel field-effect transistors (TFETs) have been proposed as the most advanced one-dimensi...
Boltzmann electron energy distribution poses a fundamental limit to lowering the energy dissipation ...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
In this work, we propose and investigate the high performance and low power design space of non-hyst...
In this paper, a novel low power consumption device based on a dopingless gate-all-around nanowire t...
We report the universal boosting impact of a true negative capacitance (NC) effect on digital and an...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
Negative capacitance transistors are a unique class of switches capable of operation beyond the Bolt...
One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly h...
Owing to the fundamental physics of the Boltzmann distribution, the ever-increasing power dissipatio...
The IoT is one of the most trending businesses of modern times and has already opened a new world of...
This paper demonstrates and experimentally reports the highest ever performance boosting in strained...
This work experimentally demonstrates that the negative capacitance effect can be used to significan...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Nanowire tunnel field-effect transistors (TFETs) have been proposed as the most advanced one-dimensi...
Boltzmann electron energy distribution poses a fundamental limit to lowering the energy dissipation ...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
In this work, we propose and investigate the high performance and low power design space of non-hyst...
In this paper, a novel low power consumption device based on a dopingless gate-all-around nanowire t...
We report the universal boosting impact of a true negative capacitance (NC) effect on digital and an...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
Negative capacitance transistors are a unique class of switches capable of operation beyond the Bolt...
One of the major roadblocks in the continued scaling of standard CMOS technology is its alarmingly h...
Owing to the fundamental physics of the Boltzmann distribution, the ever-increasing power dissipatio...
The IoT is one of the most trending businesses of modern times and has already opened a new world of...