金属-氧化物-半导体隧道结构细丝介质击穿模型的输运分析

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116) Pub Date : 1998-10-19 DOI:10.1109/IWCE.1998.742759

D. Ting, T. C. Mcgill

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引用次数: 0

摘要

利用三维量子力学散射计算分析了超薄氧化层中含有纳米级细丝的n/sup +/ poly-Si/SiO/sub - 2/ p-Si隧道结构的电流电压特性。我们发现，细丝作为高效率的局部传导路径，可以导致电流密度的急剧增加。通过使用逐渐增大的细丝，我们可以重现在实验电流-电压特性中发现的一系列应力诱导行为，包括准击穿和击穿。我们还发现，在平带以下，长丝结构中的电流密度通过量子点状态的共振隧道大大增强，并且这种电流增强高度依赖于温度。

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Transport analysis of filamentary dielectric breakdown model for metal-oxide-semiconductor tunnel structures

The current-voltage characteristics of n/sup +/ poly-Si/SiO/sub 2//p-Si tunnel structures containing nano-scale filaments embedded in ultra-thin oxide layers are analyzed using a 3D quantum mechanical scattering calculation. We find that the filaments act as highly efficient localized conduction paths and can lead to dramatic increases in current densities. By using progressively larger filaments, we can reproduce a range of stress-induced behavior found in experimental current-voltage characteristics, including quasi-breakdown and breakdown. We also find that at below flat-band, the current densities in structures with long filaments are greatly enhanced by resonant tunneling through states identified as quantum dots, and that this current enhancement is highly temperature dependent.

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来源期刊

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116)

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