Nonlinear Thermoelectric Transport Will Open a New and Exotic Way to Detect Topological Nature of Dirac Electrons in Solids | JPS Hot Topics
Dirac cone in α-graphdiyne: a first-principles study | Discover Nano
Constructing Anisotropic Single-Dirac-Cones in Bi1–xSbx Thin Films | Nano Letters
Dirac cones in graphene - TU Delft OCW
What is the DIRAC point in graphene, in layman's terms? - Quora
general relativity - Why and how Dirac cones are "tilted"? - Physics Stack Exchange
Dirac cones reshaped by interaction effects in suspended graphene | Nature Physics
A) Dirac cone formed in the vicinity of Dirac point. (B) Electronic... | Download Scientific Diagram
Research: Dirac cones on the tramp — Correlated Magnetism: From Frustration to Topology (SFB 1143) — TU Dresden
Enigmatic Dirac fermions in graphene – Lightsources.org
![PDF] g-SiC6 Monolayer: A New Graphene-like Dirac Cone Material with a High Fermi Velocity | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/02e408f2c86059baa402463c3297f1e6f40c902e/7-Figure3-1.png "PDF] g-SiC6 Monolayer: A New Graphene-like Dirac Cone Material with a High Fermi Velocity | Semantic Scholar")
PDF] g-SiC6 Monolayer: A New Graphene-like Dirac Cone Material with a High Fermi Velocity | Semantic Scholar
Spawning Rings of Exceptional Points out of Dirac Cones | MIT MRSEC
Dirac cones induced by accidental degeneracy in photonic crystals and zero-refractive-index materials | Nature Materials
Spin-up “pristine-like” Dirac cone in bridge-structure graphene on Ni(111) - ScienceDirect
Observation of One-Dimensional Dirac Fermions in Silicon Nanoribbons | Nano Letters
Figure 1 from Type-III and Tilted Dirac Cones Emerging from Flat Bands in Photonic Orbital Graphene | Semantic Scholar
Crystals | Free Full-Text | Simultaneous Dirac-like Cones at Two Energy States in Tunable Phononic Crystals: An Analytical and Numerical Study
Physics - Dirac cone in iron-based superconductors
Dirac cones in two-dimensional systems: from hexagonal to square lattices - Physical Chemistry Chemical Physics (RSC Publishing)
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The electrons in graphene obey Dirac's equation instead of Schrodinger's. Is it the mere consequence of graphene's honey comb lattice and the tight-binding approximation? - Quora
