负阻抗变换器
电气工程
电压
电容
晶体管
阈下传导
电容器
消散
铁电性
材料科学
变压器
场效应晶体管
绝缘体(电)
低压
光电子学
物理
分压器
工程类
电极
量子力学
电介质
热力学
作者
Sayeef Salahuddin,Supriyo Datta
出处
期刊:Nano Letters
[American Chemical Society]
日期:2007-12-06
卷期号:8 (2): 405-410
被引量:1904
摘要
It is well-known that conventional field effect transistors (FETs) require a change in the channel potential of at least 60 mV at 300 K to effect a change in the current by a factor of 10, and this minimum subthreshold slope S puts a fundamental lower limit on the operating voltage and hence the power dissipation in standard FET-based switches. Here, we suggest that by replacing the standard insulator with a ferroelectric insulator of the right thickness it should be possible to implement a step-up voltage transformer that will amplify the gate voltage thus leading to values of S lower than 60 mV/decade and enabling low voltage/low power operation. The voltage transformer action can be understood intuitively as the result of an effective negative capacitance provided by the ferroelectric capacitor that arises from an internal positive feedback that in principle could be obtained from other microscopic mechanisms as well. Unlike other proposals to reduce S, this involves no change in the basic physics of the FET and thus does not affect its current drive or impose other restrictions.
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