String Theory and Holographic Duality (Fall 2014)

String Theory and Holographic Duality (Fall 2014)

Prof. Hong Liu via MIT OpenCourseWare Direct link

24. Holographic Entanglement Entropy

24 of 24

24 of 24

24. Holographic Entanglement Entropy

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Classroom Contents

String Theory and Holographic Duality (Fall 2014)

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  1. 1 1. Emergence of Gravity
  2. 2 2. Classical Black Hole Geometry
  3. 3 3. Causal Structure of a Black Hole and Black Hole Temperature
  4. 4 4. Physical Interpretation of Black Hole Temperature
  5. 5 5. Black Hole Thermodynamics
  6. 6 6. Holographic Principle
  7. 7 7. Structure of Large N Expansion
  8. 8 8. Large N Expansion as a String Theory, Part I
  9. 9 9. Large N Expansion as a String Theory, Part II
  10. 10 10. Basics of String Theory and Light-cone Gauge
  11. 11 11. String Theory in the Light-cone Gauge
  12. 12 12. String Spectrum and Graviton
  13. 13 13. Physics of D-branes, Part I
  14. 14 14. Physics of D-branes, Part II
  15. 15 15. Physics of D-branes, Part III
  16. 16 16. Geometry of D-branes and AdS / CFT Conjecture
  17. 17 17. More on AdS / CFT Duality
  18. 18 18. General Aspects of the Duality
  19. 19 19. Mass-dimension Relation
  20. 20 20. Euclidean Correlation Functions: Two-point Functions
  21. 21 21. Euclidean Correlation Functions: Higher-point Functions
  22. 22 22. Computation of the Wilson Loop
  23. 23 23. Duality at a Finite Temperature and Finite Chemical Potential
  24. 24 24. Holographic Entanglement Entropy

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