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Observation of source/drain bias-controlled quantum transport spectrum in junctionless silicon nanowire transistor
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作者 Yang-Yan Guo Wei-Hua Han +2 位作者 Xiao-Di Zhang Jun-Dong Chen Fu-Hua Yang 《Chinese Physics B》 SCIE EI CAS CSCD 2022年第1期579-584,共6页
We investigate the influence of source and drain bias voltages(V_(DS))on the quantum sub-band transport spectrum in the 10-nm width N-typed junctionless nanowire transistor at the low temperature of 6 K.We demonstrate... We investigate the influence of source and drain bias voltages(V_(DS))on the quantum sub-band transport spectrum in the 10-nm width N-typed junctionless nanowire transistor at the low temperature of 6 K.We demonstrate that the transverse electric field introduced from V_(DS) has a minor influence on the threshold voltage of the device.The transverse electric field plays the role of amplifying the gate restriction effect of the channel.The one-dimensional(1D)-band dominated transport is demonstrated to be modulated by V_(DS) in the saturation region and the linear region,with the sub-band energy levels in the channel(E_(channel))intersecting with Fermi levels of the source(E_(fS))and the drain(E_(fD))in turn as V_(g) increases.The turning points from the linear region to the saturation region shift to higher gate voltages with V_(DS) increase because the higher Fermi energy levels of the channel required to meet the situation of E_(fD)=E_(channel).We also find that the bias electric field has the effect to accelerate the thermally activated electrons in the channel,equivalent to the effect of thermal temperature on the increase of electron energy.Our work provides a detailed description of the bias-modulated quantum electronic properties,which will give a more comprehensive understanding of transport behavior in nanoscale devices. 展开更多
关键词 junctionless nanowire transistors quantum transport spectrum source and drain voltage lowtemperature conductance
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Performance enhancement of CMOS terahertz detector by drain current
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作者 张行行 纪小丽 +3 位作者 廖轶明 彭静宇 朱晨昕 闫锋 《Chinese Physics B》 SCIE EI CAS CSCD 2017年第9期491-495,共5页
In this paper, we study the effect of the drain current on terahertz detection for Si metal-oxide semiconductor fieldeffect transistors(MOSFETs) both theoretically and experimentally. The analytical model, which is ... In this paper, we study the effect of the drain current on terahertz detection for Si metal-oxide semiconductor fieldeffect transistors(MOSFETs) both theoretically and experimentally. The analytical model, which is based on the smallsignal equivalent circuit of MOSFETs, predicts the significant improvement of the voltage responsivity Rv with the bias current. The experiment on antennas integrated with MOSFETs agrees with the analytical model, but the Rv improvement is accompanied first by a decrease, then an increase of the low-noise equivalent power(NEP) with the applied current. We determine the tradeoff between the low-NEP and high-Rv for the current-biased detectors. As the best-case scenario, we obtained an improvement of about six times in Rv without the cost of a higher NEP. We conclude that the current supply scheme can provide high-quality signal amplification in practical CMOS terahertz detection. 展开更多
关键词 drain current CMOS terahertz detectors voltage responsivity noise equivalent power
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