圆柱形环绕双栅MOSFET量子尺度长度模型的评估

Q3 Engineering
Uchechukwu A. Maduagwu, V. Srivastava
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引用次数: 3

摘要

圆柱环绕双栅MOSFET量子尺度长度随硅体厚度的推导与评估。为了推导出CSDG MOSFET的量子自然长度与硅体厚度的关系,观察了CSDG MOSFET在纳米尺度下的行为,并比较了CSDG MOSFET与圆柱形包围栅(CSG) MOSFET的行为。作者采用了数学分析。利用薛定谔方程,假设一维方法和一个可忽略的势阱,对量子能级进行了分析。将经典长度和量子自然长度的解析结果与数值模拟结果进行了比较。并与CSG MOSFET进行了比较。结果表明,本文提出的解析封闭表达式与数值模拟结果基本吻合,尽管CSDG MOSFET的量子自然长度小于CSG MOSFET,但在量子水平上优于CSG MOSFET。在本研究中,利用量子约束的方法,提出了量子尺度长度模型和量子尺度因子。CSDG mosfet的性能评估提供了一个机会,通过评估CSDG mosfet的量子自然长度和经典自然长度之间的权衡来确定CSDG mosfet的缩放极限。将所得结果与CSG mosfet进行了比较,表明CSDG mosfet具有更好的器件特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of Quantum Scaling Length Model for Cylindrical Surrounding Double-Gate (CSDG) MOSFET
The derivation and assessment of quantum scaling length of Cylindrical Surrounding Double-Gate (CSDG) MOSFET with respect to Silicon body thickness. To derive the quantum natural length of CSDG MOSFET with respect of Silicon body Thickness, observe the behaviour of the CSDG MOSFET at the nanoscale regime and compare the behaviour of the CSDG MOSFET with Cylindrical Surrounding Gate (CSG) MOSFET. The authors employed the mathematical analysis. The quantum energy level is analysed using Schrodinger equation by assuming one-dimensional approach and a negligible potential well. The analytical results obtained from classical and quantum natural length are compared with the numerical simulations. Also, the model was compared with CSG MOSFET. Results shows that proposed analytical close-form expression approximately matches the numerical simulation and the proposed CSDG MOSFET will be better than CSG MOSFET at quantum level even though it has smaller quantum natural length than CSG MOSFET. In this research work, quantum scaling length model and quantum scaling factor have been proposed using the quantum confinement approach. The performance assessment of the CSDG MOSFETs provided an opportunity of determining the scaling limit of CSDG MOSFETs by evaluating the trade-off between the quantum natural length and the classical natural length of CSDG MOSFETs. Results obtained were compared with CSG MOSFETs to show that CSDG MOSFETs offer better device characteristics.
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来源期刊
Micro and Nanosystems
Micro and Nanosystems Engineering-Building and Construction
CiteScore
1.60
自引率
0.00%
发文量
50
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