Impact of channel length and thickness on the short channel effects of GeOI MOSFETs

机译：通道长度和厚度对地质MOSFET的短信效应的影响

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Germanium on insulator (GeOI) MOSFETs have shown great promise for future nanoelectronics due to outstanding carrier transport properties in Ge and better electrostatic control. In this paper, we develop an accurate 2D surface potential based model for GeOI device to calculate threshold voltage V, drain induced barrier lowering DIBL and sub-threshold swing SS for channel thickness ranging 25-5 nm and channel length L in the range a few hundred down to 20 nm. Our formulation takes into account both the front and back interface-trapped charge density, oxide charge density, and the effect of back gate coupling. Our studies reveal that short channel effects as estimated in terms of V roll-up, DIBL and SS become pronounced for sub-40 nm while improve as the channel thickness shrinks below 15 nm.

机译：由于GE和更好的静电控制中未出色的载体运输性能，Undulator（Geoi）MOSFET上的锗对未来的纳米电子产品表示了很大的希望。在本文中，我们开发了一种基于GeOI装置的精确的2D表面电位模型，以计算阈值电压V，漏极感应屏障降低DIBL和子阈值摆动SS，用于频道厚度，范围内的沟道厚度和通道长度L 百到20纳米。我们的配方考虑了前后接口捕获的电荷密度，氧化物电荷密度和后栅极联接的效果。我们的研究表明，根据v卷起，DIBL和SS估计的短信效应对于子40nm发音，同时随着通道厚度缩小15nm的改善。

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《International Conference on Emerging Technology Trends in Electronics, Communication and Networking》|2014年||共4页
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Paul Jayanti; Mondai Chandrima; Biswas Abhijit;
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关键词
MOSFET; elemental semiconductors; germanium; interface states; surface potential; 2D surface potential; DIBL; Ge; GeOI MOSFET; SS; back gate coupling effect; carrier transport property; drain induced barrier lowering; electrostatic control; interface-trapped charge density; nanoelectronics; oxide charge density; short channel effect; short channel length effect; size 25 nm to 5 nm; size 40 nm; subthreshold swing; threshold voltage calculation; Electric potential; Electrostatics; Logic gates; MOSFET; Semiconductor device modeling; Threshold voltage;

机译：MOSFET;元素半导体;锗;界面状态;表面势;2D表面势;DIBL;GE;GE;GEOI MOSFET;SS;背栅极耦合效果;载流子输送性;漏极控制;静电控制;界面捕获的电荷密度;纳米电子;氧化物电荷密度;短沟道效果;短沟道长度效应;尺寸25nm至5 nm;尺寸40 nm;阈值摆动;阈值电压计算;电位;静电;静电;MOSFET;半导体器件建模;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;阈值电压;

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1. Analysis of dependence of short-channel effects in double-gate MOSFETs on channel thickness [J] . Yusuke Kobayashi, Kuniyuki Kakushima, Parhat Ahmet, Microelectronics reliability . 2010,第3期

机译：双栅MOSFET中短沟道效应对沟道厚度的依赖性分析
2. The impact of quantum confinement on the electrical characteristics of ultrathinchannel GeOI MOSFETs [J] . Fan Minmin, Xu Jingping, Liu Lu, Journal of Semiconductors . 2014,第4期

机译：量子限制对超薄沟道GeOI MOSFET电气特性的影响
3. Influence of Channel Length and High-K Oxide Thickness on Subthreshold DC Performance of Graded Channel and Gate Stack DG-MOSFETs [J] . Adak Sarosij, Swain Sanjit Kumar, Dutta Arka, Nano: brief reports and reviews . 2016,第9期

机译：沟道长度和高K氧化物厚度对渐变沟道和栅堆叠DG-MOSFET亚阈值直流性能的影响
4. Impact of channel length and thickness on the short channel effects of GeOI MOSFETs [C] . Paul Jayanti, Mondai Chandrima, Biswas Abhijit 2014 2nd International Conference on Emerging Technology Trends in Electronics, Communication and Networking . 2014

机译：沟道长度和厚度对GeOI MOSFET的短沟道效应的影响
5. Strain effects in long to short channel mosfets: From drift-diffusion to quasi-ballistic transport [D] . Parthasarathy, Srivatsan. 2012

机译：在长到短通道MOSFET的应变效应：从漂移扩散到准弹道运输
6. Short separation channel location impacts the performance of short channel regression in NIRS [O] . Louis Gagnon, Robert J. Cooper, Meryem A. Yücel, -1

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7. Raised source/drain (RSD) for 50nm MOSFETs - effect of epitaxy layer thickness on short channel effects [O] . Waite, A. M., Lloyd, N. S., Ashburn, P., 2003

机译：50nm MOSFET的升高的源极/漏极（RSD）-外延层厚度对短沟道效应的影响

Impact of channel length and thickness on the short channel effects of GeOI MOSFETs

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