Accurate and Efficient Dynamic Simulations of Ferroelectric Based Electron Devices

T. Rollo, L. Daniel, D. Esseni
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Abstract

In recent years electron devices based on ferroelectric materials have attracted a lot of interest well beyond FeRAM memories. Negative capacitance transistors (NC-FETs) have been investigated as steep slope transistors [1], [2], and Ferroelectric FETs (Fe-FETs) are under intense scrutiny also as synaptic devices for neuromorphc computing, where the minor loops in ferroelectrics can allow to achieve multiple values of conductance in read mode [3], [4], [5]. Furthermore, the persistence of ferroelectricity in ultra-thin ferroelectric layers paved the way to ferroelectric tunnelling junctions [6], where a polarization dependent tunneling current can be exploited to realize high impedance memristors, amenable for ultra power-efficient and thus massive parallel computation.
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基于铁电的电子器件精确高效的动态模拟
近年来,基于铁电材料的电子器件引起了广泛的兴趣,远远超出了FeRAM存储器。负电容晶体管(nc - fet)已经作为陡坡晶体管进行了研究[1],[2],铁电场效应管(fe - fet)也作为神经形态计算的突触装置受到了严格的审查,其中铁电体中的小回路可以在读取模式下实现多个电导值[3],[4],[5]。此外,超薄铁电层中铁电性的持续存在为铁电隧道结铺平了道路[6],在那里,与极化相关的隧道电流可以用来实现高阻抗忆阻器,从而实现超能效,从而实现大规模并行计算。
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