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石墨烯-六方氮化硼(hBN)多层超晶格中的负折射与超传输。

Negative Refraction with Superior Transmission in Graphene-Hexagonal Boron Nitride (hBN) Multilayer Hyper Crystal.

机构信息

Department of EEE, Bangladesh University of Engineering and Technology, Dhaka, Bangladesh.

Department of Electrical and Computer Engineering, National University of Singapore, 4 Engineering Drive 3, Singapore.

出版信息

Sci Rep. 2016 May 5;6:25442. doi: 10.1038/srep25442.

Abstract

In this article, we have theoretically investigated the performance of graphene-hexagonal Boron Nitride (hBN) multilayer structure (hyper crystal) to demonstrate all angle negative refraction along with superior transmission. hBN, one of the latest natural hyperbolic materials, can be a very strong contender to form a hyper crystal with graphene due to its excellence as a graphene-compatible substrate. Although bare hBN can exhibit negative refraction, the transmission is generally low due to its high reflectivity. Whereas due to graphene's 2D nature and metallic characteristics in the frequency range where hBN behaves as a type-I hyperbolic material, we have found graphene-hBN hyper-crystals to exhibit all angle negative refraction with superior transmission. Interestingly, superior transmission from the whole structure can be fully controlled by the tunability of graphene without hampering the negative refraction originated mainly from hBN. We have also presented an effective medium description of the hyper crystal in the low-k limit and validated the proposed theory analytically and with full wave simulations. Along with the current extensive research on hybridization of graphene plasmon polaritons with (hyperbolic) hBN phonon polaritons, this work might have some substantial impact on this field of research and can be very useful in applications such as hyper-lensing.

摘要

在本文中,我们从理论上研究了石墨烯-六方氮化硼(hBN)多层结构(超晶体)的性能,以展示全角度负折射和优异的传输性能。hBN 是最新的天然双曲材料之一,由于其作为石墨烯兼容衬底的卓越性能,它可以成为与石墨烯形成超晶体的有力竞争者。尽管裸 hBN 可以表现出负折射,但由于其高反射率,传输通常较低。而由于石墨烯在 hBN 表现为一类双曲材料的频率范围内具有二维性质和金属特性,我们发现石墨烯-hBN 超晶体具有全角度负折射和优异的传输性能。有趣的是,整个结构的优异传输可以完全通过石墨烯的可调性来控制,而不会影响主要由 hBN 产生的负折射。我们还在低介电常数极限下对超晶体进行了有效媒质描述,并通过全波模拟对所提出的理论进行了分析和验证。随着当前对石墨烯等离子体激元与(双曲)hBN 声子极化激元的杂化的广泛研究,这项工作可能会对该研究领域产生一些实质性的影响,并在超透镜等应用中非常有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a54c/4857181/197e71c3098d/srep25442-f1.jpg

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