Coursera Cuts Jobs Despite $100M Revenue Milestone

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

5 of 11
Previous
Next

5 of 11

Higher-Order Topology is Experimentally Ambiguous

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

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

Automatically move to the next video in the Classroom when playback concludes
  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

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Sign up for free
Someone learning on their laptop while sitting on the floor.