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In this work, we present the technological constrains and limitations in the design of ultra-thin body Junctionless Vertical Slit Field Effect Transistor (JL VeSFET). A design space that take into account the intrinsic off-current, the sub-threshold swing and the drain induced barrier lowering is investigated with respect to key technological parameters. This work could serve as a guideline for technology...
This paper reports an alternative simple fabrication process for twin gate junctionless Vertical Slit Field Effect Transistors. N-type devices have been successfully manufactured on SOI substrates with a doping density 5×1018 atoms/cm3. The devices demonstrate up to six decades of Ion/Ioff ratio and a sub-threshold swing of 90 mV/decade relative to a slit width of approximately 10 nm.
This paper proposes a CMOS based process for Vertical Slit Field Effect Transistors. The central part of the device, namely, the vertical slit, is defined by using electron beam lithography and silicon dry etching. In order to verify the validity and the reproducibility of the process, devices having the slit width ranging from 16 nm to 400 nm were fabricated, with slit conductance in the range 0...
In this work we report dense arrays of highly doped gate-all-around Si nanowire accumulation-mode nMOS-FETs with sub-5 nm cross-sections. The integration of local stressor technologies (both local oxidation and metal-gate strain) to achieve ≥ 2.5 GPa uniaxial tensile stress is reported for the first time. The deeply scaled Si nanowire shows low-field electron mobility of 332 cm2/V.s at room temperature,...
In this work we report an experimental study on accumulation-mode (AM) gate-all-around (GAA) nMOSFETs based on silicon nanowires with uniaxial tensile strain. Their electrical characteristics are studied from room temperature up to ∼400 K and carrier mobility, flat-band and threshold voltages are extracted and investigated.
The performance of a standard MOSFET degrades with the increase in temperature, impacting the power consumption of the device. In this paper, we report the opposite trend, which is reflected in an improvement of main performance factors in ferroelectric FETs (Fe-FETs), when the temperature is increased. We explain our results by Landau's theory, which is also used to develop and validate an analytical...
This work reports on the fabrication, characterization and modeling of single electron transistor behavior in gate-all-around silicon nanoscale MOS devices. Polysilicon-gated nanowire transistors with triangular cross-sections, ranging from 20 to 250nm are fabricated by an original isotropic etching technique resulting in localized-SOI on bulk-Si wafers. Low temperature (T<20K) characteristics...
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