Surface potential and mobile charge based drain current modeling of double gate junctionless accumulation mode negative capacitance field effect transistor

跨导 负阻抗变换器 材料科学 电容 晶体管 光电子学 排水诱导屏障降低 阈值电压 铁电性 场效应晶体管 凝聚态物理 阈下斜率 电压 电气工程 物理 电压源 工程类 电极 电介质 量子力学
作者
Snehlata Yadav,Sonam Rewari,Rajeshwari Pandey
出处
期刊:International Journal of Numerical Modelling-electronic Networks Devices and Fields [Wiley]
卷期号:37 (2) 被引量:4
标识
DOI:10.1002/jnm.3172
摘要

Abstract An analytical drain current model for double gate junctionless accumulation mode negative capacitance field effect transistor (DG‐JAM‐NC‐FET) has been developed, combining the merits of junctionless accumulation mode and negative capacitance effect such as fabrication feasibility, low power dissipation, and reduced degradation in mobility. The novelty manifested in our work is because of the incorporation of the JAM structure in ferroelectric‐based negative capacitance FET. The benefit of JAM over existing FETs is that it combines the benefits of the junctionless transistor (JLT) and conventional FETs. It avoids excessive parasitic resistance due to stronger doping in the source and drain areas, resulting in higher conductivity and better characteristics than JLT. An analytical surface potential and threshold voltage have been developed using Poisson's equation and Landau Khalatnikov's (L‐K) equation. The drain current is then determined by integrating the mobile charge using the Pao–Sah integral. Various critical parameters such as surface potential, gain, capacitance, mobile charge density, drain current, threshold voltage, subthreshold swing, transconductance, and the switching ratio have been assessed extensively by varying ferroelectric layer and channel layer thicknesses, respectively. The ON current increases with the increase in ferroelectric thickness due to the voltage amplification given by the ferroelectric layer, and the switching curve gets steeper. The analytical modeling is done in MATLAB, and its comparison is made with the TCAD numerical simulation. The obtained analytical results and the numerical simulation results correspond well.
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