Compact, Physics-Based Modeling of Nanoscale Limits of Double-Gate MOSFETs

机译：紧凑，基于物理的双栅极MOSFET纳米级极限建模

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Compact, physics-based models of subthreshold swing and threshold voltage are presented for double-gate (DG) MOSFETs in symmetric, asymmetric, and ground-plane modes. Applying these device models, threshold voltage variations in DG MOSFETs are comprehensively and exhaustively investigated using a unique, scale-length based methodology. Quantum mechanical effects and fringe-induced barrier lowering effect on threshold voltage, caused by ultra-thin silicon film and potential use of high-permittivity gate dielectrics, respectively, have been analytically modeled giving close agreement to numerical simulations. Scaling limits projections indicate that individual DG MOSFETs with good turn-off behavior are feasible at 10 nm scale; however, practical exploitation of these devices toward gigascale integrated systems requires development of novel technologies for significant improvement in process control.

机译：针对双栅极（DG）MOSFET在对称，非对称和地平面模式下，提供了基于物理的紧凑型亚阈值摆幅和阈值电压模型。应用这些器件模型，使用基于尺度长度的独特方法全面，详尽地研究了DG MOSFET中的阈值电压变化。分析模型分别模拟了超薄硅膜和潜在使用高介电常数栅极电介质引起的量子力学效应和边缘诱导的势垒降低阈值电压效应，与数值模拟非常吻合。缩放极限预测表明，具有良好关断性能的单个DG MOSFET在10 nm规模上是可行的;然而，将这些设备实际应用于千兆集成系统需要开发新颖的技术，以显着改善过程控制。

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《NSTI(Nano Science and Technology Institute) Nanotechnology Conference and Trade Show(Nanotech 2004)》|2004年|P.114-119|共6页
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Qiang Chen; Lihui Wang; Raghunath Murali; James D. Meindl;
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中图分类半导体技术;
关键词
double-gate; scaling; threshold voltage; subthreshold swing; MOSFET;

机译：双栅极;定标;阈值电压;亚阈值摆幅; MOSFET;

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专利

1. Compact Drain-current Model For Reproducing Advanced Transport Models In Nanoscale Double-gate Mosfets [J] . M Cheralathan, C Sampedro, J B Roldán, Semiconductor science and technology . 2011,第9期

机译：紧凑的漏电流模型，用于再现纳米级双栅Mosfets中的高级传输模型
2. Compact-Modeling Solutions For Nanoscale Double-Gate and Gate-All-Around MOSFETs [J] . Benjamin Iniguez, Tor A. Fjeldly, Antonio Lazaro, IEEE Transactions on Electron Devices . 2006,第9期

机译：纳米级双栅极和全栅MOSFET的紧凑建模解决方案
3. Modeling quantum transport under AC conditions: application to intrinsic high-frequency limits for nanoscale double-gate Si MOSFETs [J] . Fernandez-Diaz E., Alarcon A., Oriols X. IEEE transactions on nanotechnology . 2005,第5期

机译：交流条件下的量子传输建模：应用于纳米级双栅Si MOSFET的固有高频极限
4. Compact, Physics-Based Modeling of Nanoscale Limits of Double-Gate MOSFETs [C] . Qiang Chen, Lihui Wang, Raghunath Murali, NSTI Nanotechnology Conference and Trade Show . 2005

机译：基于物理的双栅极MOSFET的纳米级限制建模
5. Compact modeling of double-gate MOSFETs. [D] . Lu, Huaxin. 2006

机译：双栅极MOSFET的紧凑模型。
6. A quasi-ballistic drain current charge and capacitance model with positional carrier scattering dependency valid for symmetric DG MOSFETs in nanoscale regime [O] . Vyas R. Murnal, C. Vijaya 2019

机译：具有位置载流子散射相关性的准弹道漏电流电荷和电容模型对纳米级对称DG MOSFET有效
7. Compact Modeling of the Current through Nanoscale Double-Gate MOSFETs. [O] . Holen Åsmund 2009

机译：通过纳米级双栅极MOSFET的电流的紧凑建模。
8. Compact Modeling of the Dynamic Behaviour of MOSFETS [R] . Smedes, T. 1991

机译：mOsFETs动态特性的紧凑建模

Compact, Physics-Based Modeling of Nanoscale Limits of Double-Gate MOSFETs

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