In this paper, a new ultra-thin fully-depleted SOI CMOS structure with sharing contact between source/drain and back gate is presented to save area and increase threshold voltage tuning capability. TCAD simulations are used to investigate the back-gate effect on the ultra-thin SOI CMOS. A new process flow to make the fully-depleted SOI CMOS structures is also proposed
The fully depleted (FD) ultra-thin-body (UTB) SOI MOSFET with low-doped or undoped channel is presen...
Non-conventional metal-oxide-semiconductor (MOS) devices have attracted researchers‟ attention for f...
This thesis addresses the design and application of a state-of-the-art nano-scaled Undoped-Thinned B...
We investigate planar fully depleted silicon-oninsulator (SOI) MOSFETs with a thin buried oxide (BOX...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
Due to the shrinkage of the gate length of the MOS device, the drivability is improved, but a short ...
Although the reduction of parasitic capacitance and the feasibility of diffusion resistors and capac...
In this paper, a TCAD-based simulation study on lithography process-induced gate length variations h...
Coupled process and device simulation has been applied to investigate the physical processes which d...
International audienceThe development of high-voltage MOSFET (HVMOS) is necessary for including powe...
Ultra-thin body silicon-on-insulator (SOI) MOSFET is considered to be a strong candidate for ultimat...
This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology offers unique...
Low-power will be the primary focus of the semiconductor industry in the next decade. The threshold ...
State-of-the-art SOI transistors require a very small body. This paper examines the effects of body ...
This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology offers unique...
The fully depleted (FD) ultra-thin-body (UTB) SOI MOSFET with low-doped or undoped channel is presen...
Non-conventional metal-oxide-semiconductor (MOS) devices have attracted researchers‟ attention for f...
This thesis addresses the design and application of a state-of-the-art nano-scaled Undoped-Thinned B...
We investigate planar fully depleted silicon-oninsulator (SOI) MOSFETs with a thin buried oxide (BOX...
As bulk CMOS is approaching its scaling limit, SOI CMOS is gaining more and more attentions and is c...
Due to the shrinkage of the gate length of the MOS device, the drivability is improved, but a short ...
Although the reduction of parasitic capacitance and the feasibility of diffusion resistors and capac...
In this paper, a TCAD-based simulation study on lithography process-induced gate length variations h...
Coupled process and device simulation has been applied to investigate the physical processes which d...
International audienceThe development of high-voltage MOSFET (HVMOS) is necessary for including powe...
Ultra-thin body silicon-on-insulator (SOI) MOSFET is considered to be a strong candidate for ultimat...
This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology offers unique...
Low-power will be the primary focus of the semiconductor industry in the next decade. The threshold ...
State-of-the-art SOI transistors require a very small body. This paper examines the effects of body ...
This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology offers unique...
The fully depleted (FD) ultra-thin-body (UTB) SOI MOSFET with low-doped or undoped channel is presen...
Non-conventional metal-oxide-semiconductor (MOS) devices have attracted researchers‟ attention for f...
This thesis addresses the design and application of a state-of-the-art nano-scaled Undoped-Thinned B...