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Double-bowl state in photonic Dirac nodal line semimetal

Mengying Hu, Ye Zhang, Xi Jiang, Tong Qiao, Qiang Wang, Shining Zhu, Meng Xiao, Hui Liu

2021Light Science & Applications24 citationsDOIOpen Access PDF

Abstract

The past decade has seen a proliferation of topological materials for both insulators and semimetals in electronic systems and classical waves. Topological semimetals exhibit topologically protected band degeneracies, such as nodal points and nodal lines. Dirac nodal line semimetals (DNLS), which own four-fold line degeneracy, have drawn particular attention. DNLSs have been studied in electronic systems but there is no photonic DNLS. Here in this work, we provide a new mechanism, which is unique for photonic systems to investigate a stringent photonic DNLS. When truncated, the photonic DNLS exhibits double-bowl states (DBS), which comprise two sets of perpendicularly polarized surface states. In sharp contrast to nondegenerate surface states in other photonic systems, here the two sets of surface states are almost degenerate over the whole-spectrum range. The DBS and the bulk Dirac nodal ring (DNR) dispersion along the relevant directions, are experimentally resolved.

Topics & Concepts

SemimetalPhotonicsDirac (video compression format)PhysicsSurface statesDegenerate energy levelsTopological insulatorPhotonic crystalTopology (electrical circuits)Line (geometry)NODALSurface (topology)Condensed matter physicsPerpendicularDispersion (optics)Band gapElectronic band structureQuantum mechanicsElectronic structureCardinal pointGeometric phaseOptoelectronicsState (computer science)OpticsTopological Materials and PhenomenaGraphene research and applicationsPhotonic Crystals and Applications
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