用于FinFET结构三维模拟的量子校正模型的比较

27th International Spring Seminar on Electronics Technology: Meeting the Challenges of Electronics Technology Progress, 2004. Pub Date : 2004-05-13 DOI:10.1109/ISSE.2004.1490388

R. Entner, A. Gehring, T. Grasser, S. Selberherr

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引用次数: 10

摘要

对于FinFET结构器件性能的预测，三维器件仿真是不可避免的。由于通道中存在很强的量子力学约束，需要应用量子修正模型。其中两个模型已经在器件模拟器Minimos-NT中实现，其中一个基于预处理步骤中状态密度的校正，另一个计算带边缘能量的校正。该模型已应用于双栅极和三栅极FinFET结构的仿真。然而，虽然可以再现驱动电流的减少，但鳍中的载流子浓度与严格的量子力学模拟只显示出较差的一致性。

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A comparison of quantum correction models for the three-dimensional simulation of FinFET structures

For the prediction of the device performance of FinFET structures, 3D device simulation is inevitable. Due to the strong quantum mechanical confinement in the channel, quantum correction models need to be applied. Two of these models, where one is based on the correction of the density-of-states in a pre-processing step and the other calculates a correction for the band edge energy, have been implemented in the device simulator Minimos-NT. The models have been applied to the simulation of double- and triple-gate FinFET structures. However, while the drive current reduction can be reproduced, the carrier concentration in the fin shows only poor agreement with rigorous quantum mechanical simulation.

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27th International Spring Seminar on Electronics Technology: Meeting the Challenges of Electronics Technology Progress, 2004.

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