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Device Characteristics of Double-Gate MOSFETs with Si-Dielectric Interface Model from First Principle Calculations

机译：具有第一个原理计算的Si-介电接口模型双栅极MOSFET的器件特性

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The first principle calculations based on density functional theory were performed to determine the band gap profiles and dielectric constants along the Si-Dielectric interface of CMOS device. The band gap changes almost linearly between Si and SiO_2 interfaces with transition depth of 5 A. The calculated dielectric constants change almost abruptly at Si/SiO_2 interface. Thus-obtained band gap profile and dielectric constants were used in electron transport simulation of ultra-thin-body n-type double-gate MOSFETs. The self-consistent potential profile in the channel and gate leakage current were calculated accurately using the non-equilibrium Green's function approach. The effect of the band gap transition across the Si/SiO_2 interface on the device performance is investigated.

机译：执行基于密度泛函理论的第一个原理计算，以确定CMOS装置的Si-介电接口的带隙谱和介电常数。带隙几乎线性地在SI和SiO_2接口之间发生变化，过渡深度为5A。计算出的介电常数在Si / SiO_2接口处几乎变化。由此获得的带隙曲线和介电常数用于超瘦身N型双栅极MOSFET的电子传输模拟。使用非平衡绿色的功能方法精确计算通道和栅极漏电流中的自我一致潜在轮廓。研究了在设备性能上跨SI / SIO_2接口跨SI / SIO_2接口的效果。

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《Silicon Nanoelectronics Workshop》|2010年||共2页
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Yongjin Park; Ki-jeong Kong; Hyunju Chang; Mincheol Shin;
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专利

1. First-principles calculations of mobilities in ultrathin double-gate MOSFETs [J] . M. H. Evans, M. Caussanel, R. D. Schrimpf, Journal of Computational Electronics . 2007,第1a3期

机译：超薄双栅极MOSFET迁移率的第一性原理计算
2. Quantum Analytical Modeling for Device Parameters and (I) – (V) Characteristics of Nanoscale Dual-Material Double-Gate Silicon-on-Nothing MOSFET [J] . Shee S., Bhattacharyya G., Sarkar S.K. Electron Devices, IEEE Transactions on . 2014,第8期

机译：设备参数和（I） – （V）纳米级双材料双栅极无硅MOSFET的特性
3. A Low-Field Mobility Model for Bulk, Ultrathin Body SOI and Double-Gate n-MOSFETs With Different Surface and Channel Orientations—Part I: Fundamental Principles [J] . Silvestri L., Reggiani S., Gnani E., Electron Devices, IEEE Transactions on . 2010,第7期

机译：具有不同表面和沟道方向的块状，超薄体SOI和双栅极n-MOSFET的低场迁移模型—第一部分：基本原理
4. Device Characteristics of Double-Gate MOSFETs with Si-Dielectric Interface Model from First Principle Calculations [C] . Yongjin Park, Ki-jeong Kong, Hyunju Chang, Silicon Nanoelectronics Workshop . 2010

机译：具有第一个原理计算的Si-介电接口模型双栅极MOSFET的器件特性
5. Process-based compact modeling and analysis of silicon-on-insulator CMOS devices and circuits, including double-gate MOSFETs. [D] . Chiang, Meng-Hsueh. 2001

机译：对绝缘体上硅CMOS器件和电路（包括双栅MOSFET）的基于过程的紧凑建模和分析。
6. Performance of arsenene and antimonene double-gate MOSFETs from first principles [O] . Giovanni Pizzi, Marco Gibertini, Elias Dib, -1

机译：首要原理的砷和锑双栅极MOSFET的性能
7. A Low-Field Mobility Model for Bulk, Ultrathin Body SOI and Double-Gate n-MOSFETs With Different Surface and Channel Orientations—Part I: Fundamental Principles [O] . Luca Silvestri, Susanna Reggiani, Elena Gnani, 2010

机译：具有不同表面和沟道方向的散装，超薄体SOI和双栅极N-MOSFET的低场移动模型 - I：基本原则

Device Characteristics of Double-Gate MOSFETs with Si-Dielectric Interface Model from First Principle Calculations

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