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Transport in TriGate nanowire FET: Cross-section effect at the nanometer scale

机译：TriGate纳米线FET中的传输：纳米尺度的截面效应

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We hereby present a study of electron mobility in Tri-gate SOI Nanowire (TGNW) transistors in a wide range of temperature from 20K up to 425K. We compared the temperature dependence for different values of the NW cross-section (width and height) and different crystallographic orientations of the conduction channel. We demonstrate that the electron mobility in narrow TGNWs is limited by surface roughness in the sidewall inversion surface whatever the NW orientation [110]/(100) or [100]/(100). We have also evidenced an enhanced temperature dependence, attributed to phonon scattering, as the cross-section of the NW decreases below a critical dimension (≈80nm).

机译：在此，我们将研究在20K至425K的宽温度范围内的三栅SOI纳米线（TGNW）晶体管中的电子迁移率。我们比较了NW横截面的不同值（宽度和高度）和传导通道的不同晶体学取向的温度依赖性。我们证明，无论NW方向[110] /（100）或[100] /（100），在窄TGNWs中的电子迁移率都受到侧壁反转表面的表面粗糙度的限制。我们还证明，由于NW的横截面减小到临界尺寸（≈80nm）以下，因此声子散射对温度的依赖性增强。

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《》|2016年|1-2|共2页
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J. Pelloux-Prayer; M. Cassé; S. Barraud; F. Triozon; Z. Zeng; Y.-M. Niquet; J.-L. Rouvière; G. Reimbold;
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Transistors; Temperature measurement; Rough surfaces; Surface roughness; Scattering; Electron mobility; Phonons;

机译：晶体管;温度测量;粗糙表面;表面粗糙度;散射;电子迁移率;声子;

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专利

1. Strain-Induced Performance Enhancement of Trigate and Omega-Gate Nanowire FETs Scaled Down to 10-nm Width [J] . Coquand R., Casse M., Barraud S., Electron Devices, IEEE Transactions on . 2013,第2期

机译：Trigate和Omega-Gate纳米线FET减小至10nm宽度的应变诱导性能增强
2. Analysis of Carrier Transport in Trigate Si Nanowire MOSFETs [J] . Lai W.-T., Wu C.-W., Lin C.-C., Electron Devices, IEEE Transactions on . 2011,第5期

机译：Trigate Si纳米线MOSFET中的载流子传输分析
3. Scaling of Trigate nanowire (NW) MOSFETs to sub-7 nm width: 300 K transition to Single Electron Transistor [J] . V. Deshpande, S. Barraud, X. Jehl, Solid-State Electronics . 2013,第juna期

机译：将Trigate纳米线（NW）MOSFET缩放至7纳米以下的宽度：300 K过渡到单电子晶体管
4. Transport in TriGate nanowire FET: Cross-section effect at the nanometer scale [C] . J. Pelloux-Prayer, M. Cassé, S. Barraud, SOI-3D-Subthreshold Microelectronics Technology Unified Conference . 2016

机译：Trigate纳米线FET的运输：纳米尺度的横截面效果
5. Effects of moisture on the breakdown strength and lifetime of low permittivity dielectric for nanometer scale interconnects. [D] . Choi, Soo Young. 2009

机译：水分对纳米级互连低介电常数击穿强度和寿命的影响。
6. Receptor Actions of Synaptically Released Glutamate: The Role of Transporters on the Scale from Nanometers to Microns [O] . Kaiyu Zheng, Annalisa Scimemi, Dmitri A. Rusakov 2008

机译：突触释放的谷氨酸的受体作用：从纳米级到微米级的转运蛋白的作用。
7. On the ballistic transport in nanometer-scaled double-gate MOSFET [O] . Martin, J. Saint, Bournel, A., Dollfus, P. 2004

机译：关于纳米级双栅极mOsFET的弹道传输
8. Spin Coherence and Magnetization Transport in Nanometer-Scale Structures [R] . Jones, B. , Eigler, D. , Heinrich, A. , 2005

机译：纳米尺度结构中的自旋相干和磁化输运

Transport in TriGate nanowire FET: Cross-section effect at the nanometer scale

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