Quantum mechanical equivalent of electromagnetic band gap and perfect tunneling in multilayer semiconductor hetero-structures

8th International Conference on Electrical and Computer Engineering Pub Date : 2014-12-01 DOI:10.1109/ICECE.2014.7026852

Md Jubayer Shawon, Arif Shahriar, M. Mahdy, A. A. Sayem, G. D. Al-Quaderi, MD Saifur Rahman

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引用次数: 5

Abstract

In this article, we have applied Maxwell-Schrodinger analogy to introduce the idea of electromagnetic metamaterial based band gap in semiconductor regime. We have found a new type of band gap in semiconductor hetero-structures, which is analogous to the spatial average single negative (SASN) band gap in multi-layer photonic crystal. Interestingly, width of such bandgaps is controllable according to designers' will. Perfect tunneling of the propagating stationary states and strong spatial delocalization of bounded electronic states have also been observed, which is electronic analogue of the enhancement of evanescent waves in Pendry's lens. Finally, a multilayer structure has been proposed, which supports band-gap at some energy bands and perfect tunneling at target energy value. As the on-off ratio (step transition from low transmission to high transmission) is very high even if the applied energy is very low, this kind of multi-layer structures can be very useful as future low power electronic device and logic transistor.

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多层半导体异质结构中电磁带隙的量子力学等效和完美隧穿

本文应用麦克斯韦-薛定谔类比引入了半导体体制下电磁超材料基带隙的思想。我们在半导体异质结构中发现了一种类似于多层光子晶体中空间平均单负带隙(SASN)的新型带隙。有趣的是，这种带隙的宽度可以根据设计师的意愿进行控制。我们还观察到静止态的完美隧穿和有界电子态的强空间离域，这是彭德里透镜中倏逝波增强的电子模拟。最后，提出了一种多层结构，该结构在某些能带上支持带隙，在目标能量值上支持完美的隧穿。由于在应用能量很低的情况下，这种多层结构的通断比(从低传输到高传输的阶跃转换)非常高，因此在未来的低功率电子器件和逻辑晶体管中非常有用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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8th International Conference on Electrical and Computer Engineering

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