具有铁电绝缘层的dg - mosfet和dg - tfet的性能评价

2020 5th IEEE International Conference on Emerging Electronics (ICEE) Pub Date : 2020-11-26 DOI:10.1109/icee50728.2020.9777088

Reshma S. Kumar, R. Narang, Mridula Gupta, M. Saxena

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引用次数: 0

摘要

在这项工作中，我们介绍了铁电(FE)栅极介电在双栅MOSFET和TFET及其当代无掺杂和无结变体中的影响。通过选择门工作函数的统一值、源漏工作函数的合适值和有限元参数，对SS、$\ mathm {I}_{\text{ON}}、$ mathm {I}_{\text{OFF}}、$ mathm {V}_{\text{th}}$和$\ mathm {I}_{\text{ON}}/ $ mathm {I}_{\text{OFF}}$比值进行了全面的比较分析。在$\ matthrm {I}_{\text{ON}}$中，DGFeTFET的最大SS为20.28 mV/decade，提升了约3个数量级，而由于引入FE层，JLDGTFET的SS改善最大。此外，还研究了器件几何参数$(\ mathm {t}_{\text{fe}})$和铁电参数$\ mathm {E}_{\ mathm {c}}$和$\ mathm {P}_{\ mathm {s}} $的变化对漏极电流的影响。

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Performance evaluation of DG-MOSFETs and DG-TFETs with Ferroelectric insulation layer

In this work, we have presented the effect of Ferroelectric (FE) gate dielectric in Double Gate MOSFET and TFET and their contemporary Dopingless and Junctionless variants. A comprehensive and comparative analysis has been carried out to study the SS, $\mathrm{I}_{\text{ON}},\mathrm{I}_{\text{OFF}},\mathrm{V}_{\text{th}}$ and $\mathrm{I}_{\text{ON}}/\mathrm{I}_{\text{OFF}}$ ratio by choosing uniform values of gate workfunctions and suitable values of source/drain workfunctions and the FE parameters. The steepest SS of 20.28 mV/decade is observed in case of DGFeTFET with a boost of about 3 orders of magnitude in $\mathrm{I}_{\text{ON}}$ while the largest improvement in SS due to introduction of FE layer is shown by JLDGTFET. Further, the impact of variation of device geometrical parameter $(\mathrm{t}_{\text{fe}})$ and the ferroelectric parameters ($\mathrm{E}_{\mathrm{c}}$ and $\mathrm{P}_{\mathrm{s}})$ on drain current has also been studied.

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2020 5th IEEE International Conference on Emerging Electronics (ICEE)

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