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Spin-Resolved Topology and Partial Axion Angles in Higher-Order Topological Crystalline Insulators

Spin-Resolved Topology and Partial Axion Angles in Higher-Order Topological Crystalline Insulators

PCS Institute for Basic Science via YouTube Direct link

Higher-Order Topology is Experimentally Ambiguous

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Higher-Order Topology is Experimentally Ambiguous

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Spin-Resolved Topology and Partial Axion Angles in Higher-Order Topological Crystalline Insulators

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  1. 1 Intro
  2. 2 Why Do We Care About Topological States?
  3. 3 The Response Theory of 3D Tls is Axion Electrodynamics
  4. 4 Higher-Order Topology is a Useful Theory Framework
  5. 5 Higher-Order Topology is Experimentally Ambiguous
  6. 6 Signature of 3D Chiral HOTIS: Axion Electrodynamics
  7. 7 Test: Dislocations and Magnetic Flux Insertion
  8. 8 Test Case: Chiral HOTI (Axion Insulator)
  9. 9 Theory Interpretation of Flux Insertion
  10. 10 Position-Space Calculations Reveal a New Anomaly
  11. 11 Finer Classification of Insulators: Spin-Resolved Topology

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