铁电场效应管负电容效应的物理机理研究

2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2020-09-23 DOI:10.23919/SISPAD49475.2020.9241628

M. Kobayashi

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引用次数: 0

摘要

负电容场效应管是一种很有前途的CMOS技术增压器，它可以在不降低性能的情况下在亚阈值摆幅(SS)中突破60mV/dec的极限。通过考虑铁电栅绝缘子的极化动力学，研究了铁电场效应管(FeFET)中负电容的物理机制:瞬态负电容(TNC)。极化开关和去极化效应是引起负电容效应的关键，即在深亚阈区以小损耗层电容放大表观表面电位。此外，瞬态负电容理论还再现了反向DIBL和负差分电阻(NDR)的独特特性。模拟FeFET中的电荷缺陷，可以实现60mv /dec以下的无磁滞SS。TNC理论被认为是模拟场效应管亚阈值特性的一个综合框架。

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On the Physical Mechanism of Negative Capacitance Effect in Ferroelectric FET

Negative capacitance FET is a promising CMOS technology booster which may break the limit of 60mV/dec in subthreshold swing (SS) without degrading performance. We investigated the physical mechanism of negative capacitance in ferroelectric FET (FeFET) by considering the dynamics of the polarization in ferroelectric gate insulator: transient negative capacitance (TNC). Polarization switching and depolarization effect are essential to cause negative capacitance effect, that is, apparent surface potential amplification in deep subthreshold region with small depletion layer capacitance. Moreover, unique features of reverse DIBL and negative differential resistance (NDR) are also reproduced by the transient negative capacitance theory. Modeling charged defect in FeFET, hysteresis-free sub-60mV/dec SS can be realized. TNC theory is regarded as a comprehensive framework to model subthreshold characteristics of FeFET.

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来源期刊

2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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