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Literature DB >> 24193661

Observation of unconventional edge states in 'photonic graphene'.

Yonatan Plotnik¹, Mikael C Rechtsman¹, Daohong Song², Matthias Heinrich³, Julia M Zeuner³, Stefan Nolte³, Yaakov Lumer⁴, Natalia Malkova⁵, Jingjun Xu⁶, Alexander Szameit³, Zhigang Chen⁷, Mordechai Segev⁴.

Abstract

Graphene, a two-dimensional honeycomb lattice of carbon atoms, has been attracting much interest in recent years. Electrons therein behave as massless relativistic particles, giving rise to strikingly unconventional phenomena. Graphene edge states are essential for understanding the electronic properties of this material. However, the coarse or impure nature of the graphene edges hampers the ability to directly probe the edge states. Perhaps the best example is given by the edge states on the bearded edge that have never been observed-because such an edge is unstable in graphene. Here, we use the optical equivalent of graphene-a photonic honeycomb lattice-to study the edge states and their properties. We directly image the edge states on both the zigzag and bearded edges of this photonic graphene, measure their dispersion properties, and most importantly, find a new type of edge state: one residing on the bearded edge that has never been predicted or observed. This edge state lies near the Van Hove singularity in the edge band structure and can be classified as a Tamm-like state lacking any surface defect. The mechanism underlying its formation may counterintuitively appear in other crystalline systems.

Entities: Chemical Species

Year: 2013 PMID： 24193661 DOI： 10.1038/nmat3783

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

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