In this work, we propose and investigate the high performance and low power design space of non-hysteretic negative capacitance MOSFETs for the 14nm node based on the calibrated simulations using an experimental gate stack with PZT ferroelectric to obtain negative capacitance effect. All necessary parameters are extracted by carefully characterizing experimentally fabricated ferroelectric capacitors, to ensure realistic simulation results. The ferroelectric thickness obtained by the proposed approach leads to the maximum enhancement in the non-hysteretic operation of negative capacitance transistors. We report a clear and significant double improvement in (i) subthreshold swing and (ii) gate overdrive, using negative capacitance effect. Sim...
With the scaling of the transistor, fabrication of an actual device and modeling of an ultra-short c...
This thesis report is submitted in partial fulfilment of the requirements for the degree of Bachelor...
Tradeoff between switching performance and power dissipation is a major challenge in the evolution o...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
Boltzmann electron energy distribution poses a fundamental limit to lowering the energy dissipation ...
Impact of physical parameters of ferroelectric layer on the performance of Negative Capacitance (NC)...
Owing to the fundamental physics of the Boltzmann distribution, the ever-increasing power dissipatio...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
Because of the thermal distribution of electrons in a semiconductor, modern transistors cannot be tu...
Conventional Field Effect Transistor (FET) are well known to require at least 60mV/decade at 300K ch...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
In the last couple decades, the phenomenal growth of mobile electronics is fueling thedemand for mul...
Abstract Investigation and analysis of a ferroelectric material–based dopingless nanotube tunnel fie...
This paper demonstrates and experimentally reports the highest ever performance boosting in strained...
With the scaling of the transistor, fabrication of an actual device and modeling of an ultra-short c...
This thesis report is submitted in partial fulfilment of the requirements for the degree of Bachelor...
Tradeoff between switching performance and power dissipation is a major challenge in the evolution o...
This letter reports for the first time a full experimental study of performance boosting of tunnel F...
Conventional device scaling has been the main guiding principle of the MOS device engineering over t...
Boltzmann electron energy distribution poses a fundamental limit to lowering the energy dissipation ...
Impact of physical parameters of ferroelectric layer on the performance of Negative Capacitance (NC)...
Owing to the fundamental physics of the Boltzmann distribution, the ever-increasing power dissipatio...
The progress of state-of-art electronics requires CMOS technology to be more powerful and power effi...
Because of the thermal distribution of electrons in a semiconductor, modern transistors cannot be tu...
Conventional Field Effect Transistor (FET) are well known to require at least 60mV/decade at 300K ch...
In this paper, we propose and analyse the performance of negative capacitance tunnel field-effect-tr...
In the last couple decades, the phenomenal growth of mobile electronics is fueling thedemand for mul...
Abstract Investigation and analysis of a ferroelectric material–based dopingless nanotube tunnel fie...
This paper demonstrates and experimentally reports the highest ever performance boosting in strained...
With the scaling of the transistor, fabrication of an actual device and modeling of an ultra-short c...
This thesis report is submitted in partial fulfilment of the requirements for the degree of Bachelor...
Tradeoff between switching performance and power dissipation is a major challenge in the evolution o...