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手性光子晶体中由节面限定的本征三重简并点

Intrinsic Triple Degeneracy Point Bounded by Nodal Surfaces in Chiral Photonic Crystal.

机构信息

Department of Physics, Hong Kong University of Science and Technology, Hong Kong, China.

Institute for Advanced Study, Hong Kong University of Science and Technology, Hong Kong, China.

出版信息

Phys Rev Lett. 2023 May 19;130(20):203802. doi: 10.1103/PhysRevLett.130.203802.

Abstract

In periodic systems, band degeneracies are typically protected and classified by spatial symmetries. However, in photonic systems, the Γ point at zero frequency is an intrinsic degeneracy due to the polarization degree of freedom of electromagnetic waves. For chiral photonic crystals, such an intrinsic degeneracy carries ±2 chiral topological charge while having linear band dispersions, different from the general perception of charge-2 nodes being associated with quadratic dispersions. Here, we show that these topological characters originate from the spin-1 Weyl point at zero frequency node of triple degeneracy, due to the existence of an electrostatic flat band. Such a topological charge at zero frequency is usually buried in bulk band projections and has never been experimentally observed. To address this challenge, we introduce space-group screw symmetries in the design of chiral photonic crystal, which makes the Brillouin zone boundary an oppositely charged nodal surface enclosing the Γ point. As a result, the emergent Fermi arcs are forced to connect the projections of these topological singularities, enabling their experimental observation. The number of Fermi arcs then directly reveals the embedded topological charge at zero frequency.

摘要

在周期性系统中,能带简并通常受到空间对称性的保护和分类。然而,在光子系统中,由于电磁波的偏振自由度,零频率的 Γ 点是内在简并。对于手征光子晶体,这种内在简并具有 ±2 的手征拓扑电荷,同时具有线性能带色散,与通常认为的二次色散相关的电荷 2 节点不同。在这里,我们表明这些拓扑特征源于三重简并的零频节点处的自旋 1 Weyl 点,这是由于存在静电平坦带。由于在体带投影中通常会隐藏这种零频拓扑电荷,因此从未在实验中观察到。为了解决这一挑战,我们在手征光子晶体的设计中引入了空间群螺旋对称,这使得布里渊区边界成为一个具有相反电荷的节点面,包围 Γ 点。结果,出现的费米弧被迫连接这些拓扑奇点的投影,从而能够观察到它们。费米弧的数量直接揭示了嵌入的零频拓扑电荷。

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