探究可见光谱中拓扑硅光子晶格的能带结构。

Probing the Band Structure of Topological Silicon Photonic Lattices in the Visible Spectrum.

机构信息

Applied Physics, California Institute of Technology Pasadena, California 91125, USA.

Center for Nanophotonics, AMOLF, Science Park 104, 1098 XG, Amsterdam, Netherlands.

出版信息

Phys Rev Lett. 2019 Mar 22;122(11):117401. doi: 10.1103/PhysRevLett.122.117401.

DOI:10.1103/PhysRevLett.122.117401

PMID:30951323

Abstract

We study two-dimensional hexagonal photonic lattices of silicon Mie resonators with a topological optical band structure in the visible spectral range. We use 30 keV electrons focused to nanoscale spots to map the local optical density of states in topological photonic lattices with deeply subwavelength resolution. By slightly shrinking or expanding the unit cell, we form hexagonal superstructures and observe the opening of a band gap and a splitting of the double-degenerate Dirac cones, which correspond to topologically trivial and nontrivial phases. Optical transmission spectroscopy shows evidence of topological edge states at the domain walls between topological and trivial lattices.

摘要

我们研究了在可见光谱范围内具有拓扑光学能带结构的二维六角形硅 Mie谐振器光子晶格。我们使用 30keV 的电子聚焦到纳米级光斑，以亚波长分辨率绘制拓扑光子晶格中的局域光态密度图。通过稍微缩小或扩大单元胞，我们形成了六角超晶格，并观察到带隙的打开和双简并狄拉克锥的分裂，这对应于拓扑平凡和非平凡相。光学透射谱表明在拓扑和非拓扑晶格之间的畴壁处存在拓扑边缘态的证据。

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探究可见光谱中拓扑硅光子晶格的能带结构。

Probing the Band Structure of Topological Silicon Photonic Lattices in the Visible Spectrum.

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