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Literature DB >> 26207488

Line of Dirac Nodes in Hyperhoneycomb Lattices.

Kieran Mullen¹, Bruno Uchoa¹, Daniel T Glatzhofer².

Abstract

We propose a family of structures that have "Dirac loops," closed lines of Dirac nodes in momentum space, on which the density of states vanishes linearly with energy. Those lattices all possess the planar trigonal connectivity present in graphene, but are three dimensional. We show that their highly anisotropic and multiply connected Fermi surface leads to quantized Hall conductivities in three dimensions for magnetic fields with toroidal geometry. In the presence of spin-orbit coupling, we show that those structures have topological surface states. We discuss the feasibility of realizing the structures as new allotropes of carbon.

Entities: Chemical

Year: 2015 PMID： 26207488 DOI： 10.1103/PhysRevLett.115.026403

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

Line of Dirac Nodes in Hyperhoneycomb Lattices.

1. Topological Dirac nodal lines and surface charges in fcc alkaline earth metals.

2. Hourglass Dirac chain metal in rhenium dioxide.

3. Emergence of topological semimetals in gap closing in semiconductors without inversion symmetry.

4. Hydrogenated derivatives of hexacoordinated metallic Cu₂Si monolayer.

5. Half-Dirac semimetals and the quantum anomalous Hall effect in Kagome Cd₂N₃ lattices.

6. Tunable topological electronic states in the honeycomb-kagome lattices of nitrogen/oxygen-doped graphene nanomeshes.

7. Topological phononics arising from fluid-solid interactions.

8. Dirac Magnon Nodal Loops in Quasi-2D Quantum Magnets.