模拟视角:Ge GAA CMOS器件的潜力与局限

2018 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2018-09-01 DOI:10.1109/SISPAD.2018.8551673

S. Su, E. Chen, Jeff Wu

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引用次数: 0

摘要

研究了截面为$6\ × 6\ mathm {n}\ mathm {m}^{2}$的n/p锗纳米线晶体管的电学特性。利用多子带玻尔兹曼输运方程和弹道量子输运求解器分别模拟了离子性能和亚阈值摆动。由于具有高度各向异性的$\ λ $谷，NWTs的性能对界面层势垒高度敏感。基于紧密结合全带的维度相关k·p参数用于解决pGe NWTs的强约束问题。与Si NWTs相比，在28nm通道长度下，n/p Ge NWTs的本禀离子是Si NWTs的两倍。当通道长度按比例缩小时，这种离子优势将保持下去，直到隧道效应出现并降低亚阈值振荡。

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A Simulation Perspective: The Potential and Limitation of Ge GAA CMOS Devices

The electrical characteristics of <110> n/p Ge nanowire transistors (NWTs) with the cross section of $6\times 6\mathrm{n}\mathrm{m}^{2}$ have been studied. The ION performance and the subthreshold swing are simulated by multi-subband Boltzmann transport equation and ballistic quantum transport solvers, respectively. The performance of <110> nGe NWTs is sensitive to the barrier height of interfacial layer due to highly-anisotropic $\Lambda$-valleys. The dimension-dependent k·p parameters based on tight-binding full band are used to address the strong confinement of pGe NWTs. Comparing to Si NWTs, the intrinsic ION is twice as high for both n/p Ge NWTs at 28nm channel length. As the channel length is scaled down, such ION benefit is maintained till the tunneling effect comes in and degrades the subthreshold swing.

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2018 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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