In this study, we perform reconfigurable n- and p-channel operations of a tri-top-gate field-effect transistor (FET) made of a p(+)-i-n(+) silicon nanowire (SiNW). In the reconfigurable FET (RFET), two polarity gates and one control gate induce virtual electrostatic doping in the SiNW channel. The polarity gates are electrically connected to each other and program the channel type, while the control gate modulates the flow of charge carriers in the SiNW channel. The SiNW RFET features simple device design, symmetrical electrical characteristics in the n- and p-channel operation modes using p(+)-i-n(+) diode characteristics, and both operation modes exhibit high ON/OFF ratios (similar to 10(6)) and high ON currents (similar to 1 mu A mu m(-1)). The proposed device is demonstrated experimentally using a fully CMOS-compatible top-down processes.
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机译:在这项研究中,我们对由 p(+)-i-n(+) 硅纳米线 (SiNW) 制成的三顶栅场效应晶体管 (FET) 进行了可重构的 n 沟道和 p 沟道操作。在可重构场效应晶体管 (RFET) 中,两个极性栅极和一个控制栅极在 SiNW 通道中感应出虚拟静电掺杂。极性栅极相互电连接并编程通道类型,而控制栅极则调制SiNW通道中电荷载流子的流动。SiNW RFET具有简单的器件设计,在n沟道和p沟道工作模式下使用p(+)-i-n(+)二极管特性的对称电气特性,并且两种工作模式都表现出高开/关比(类似于10(6))和高导通电流(类似于1 μ A mu m(-1))。所提出的器件使用完全兼容CMOS的自上而下工艺进行了实验演示。
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