The Impact of Dopant Diffusion on Random Dopant Fluctuation in Si Nanowire FETs: A Quantum Transport Study

机译：掺杂剂扩散对Si纳米线FET中随机掺杂物波动的影响：量子传输研究

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In this work, we perform statistical quantum transport simulations with 3 x 3 nm^{2 Si nanowire (NW) field-effect transistors (FETs) to investigate the impact of dopant diffusion on random dopant fluctuation. First, we use an effective mass Hamiltonian for the transport where the confinement and transport effective masses are extracted from the tight-binding band structure calculations. The dopant diffusion along the transport direction from the source/drain regions to the channel region is modeled by the Gaussian doping profile. To generate random discrete dopants, we adopt a rejection scheme considering the 3-dimensional atomic arrangement of the NW structures. Our statistical simulation results show that the diffused dopants into the channel region cause large variability problems in Si NW FETs.}

机译：在这项工作中，我们使用3 x 3 nm执行统计量子传输模拟^{2 Si纳米线（NW）场效应晶体管（FET），以研究掺杂剂扩散对随机掺杂剂波动的影响。首先，我们使用有效的质量汉密尔顿汉菲尔顿汉密尔顿，其中限制和运输有效质量从紧密结合带结构计算中提取。沿着传送方向从源/漏区到沟道区域的掺杂剂扩散由高斯掺杂轮廓建模。为了产生随机离散掺杂剂，我们采用考虑NW结构的三维原子布置的抑制方案。我们的统计模拟结果表明，扩散掺杂剂进入沟道区导致Si NW FET中的大变异性问题。}

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《International Conference on Simulation of Semiconductor Processes and Devices》|2018年|373p|共4页
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Jaehyun Lee; Salim Berrada; Hamilton Carrillo-Nunez; Cristina Medina-Bailon; Fikru Adamu-Lema; Vihar P. Georgiev; Asen Asenov;
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中图分类 TN3-53;
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Silicon; Ions; Semiconductor process modeling; Doping profiles; Logic gates; Field effect transistors; Fluctuations;

机译：硅;离子;半导体过程建模;掺杂型材;逻辑门;场效应晶体管;波动;

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专利

1. Quantum-Transport Study on the Impact of Channel Length and Cross Sections on Variability Induced by Random Discrete Dopants in Narrow Gate-All-Around Silicon Nanowire Transistors [J] . Martinez A., Aldegunde M., Seoane N., Electron Devices, IEEE Transactions on . 2011,第8期

机译：窄栅全能硅纳米线晶体管中沟道长度和截面对随机离散掺杂引起的变异性影响的量子传输研究。
2. Discrete Random Dopant Fluctuation Impact on Nanoscale Dopant-Segregated Schottky-Barrier Nanowires [J] . Afzalian A., Flandre D. Electron Device Letters, IEEE . 2012,第9期

机译：离散随机掺杂物涨落对纳米级掺杂物隔离的肖特基势垒纳米线的影响
3. Random Dopant Fluctuation Induced Variability in Undoped Channel Si Gate all Around Nanowire n-MOSFET [J] . Nayak K., Agarwal S., Bajaj M., Electron Devices, IEEE Transactions on . 2015,第2期

机译：纳米线n-MOSFET周围无掺杂沟道Si栅极中随机掺杂物波动引起的变异性
4. The Impact of Dopant Diffusion on Random Dopant Fluctuation in Si Nanowire FETs: A Quantum Transport Study [C] . Jaehyun Lee, Salim Berrada, Hamilton Carrillo-Nunez, International Conference on Simulation of Semiconductor Processes and Devices . 2018

机译：掺杂扩散对Si纳米线FET中随机掺杂波动的影响：量子传输研究
5. Modeling random dopant fluctuation effects in nanoscale trigate MOSFETs. [D] . Ogden, Joshua. 2011

机译：对纳米级三栅MOSFET中的随机掺杂剂波动效应进行建模。
6. Electrical characteristic fluctuation of 16-nm-gate trapezoidal bulk FinFET devices with fixed top-fin width induced by random discrete dopants [O] . Wen-Tsung Huang, Yiming Li 2015

机译：随机离散掺杂剂引起的具有固定顶鳍宽度的16nm栅极梯形体FinFET器件的电特性波动
7. Increase in the random dopant induced threshold fluctuations and lowering in sub-100 nm MOSFETs due to quantum effects: A 3-D density-gradient simulation study [O] . Asenov, Asen, Slavcheva, G, Brown, Andrew R., 2001

机译：3D密度梯度模拟研究：由于量子效应，随机掺杂剂引起的阈值波动增加，而亚100 nm MOSFET的阈值波动降低：
8. Increase in the Random Dopant Induced Threshold Fluctuations and Lowering in Sub 100 nm MOSFETs Due to Quantum Effects: A 3-D Density-Gradient Simulation Study [R] . Asenov, Asen, Slavcheva, G., Brown, A. R., 2000

机译：由量子效应引起的随机掺杂剂诱导阈值波动和低于100 nm mOsFET的降低：三维密度梯度模拟研究

The Impact of Dopant Diffusion on Random Dopant Fluctuation in Si Nanowire FETs: A Quantum Transport Study

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