Knot Polynomials from Chern-Simons Field Theory and Their String Theoretic Implications by P. Ramadevi

Knot Polynomials from Chern-Simons Field Theory and Their String Theoretic Implications by P. Ramadevi

International Centre for Theoretical Sciences via YouTube Direct link

Eigenbasis of Braiding operator

11 of 56

11 of 56

Eigenbasis of Braiding operator

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Knot Polynomials from Chern-Simons Field Theory and Their String Theoretic Implications by P. Ramadevi

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  1. 1 Outline
  2. 2 Just like Periodic Table of chemical elements
  3. 3 Periodic table of Knots
  4. 4 Knot Equivalence
  5. 5 Knot Invariant through recursive method
  6. 6 Jones Polynomial
  7. 7 Chern-Simons Theory
  8. 8 Well-Known polynomials from Chern-Simons
  9. 9 Knot Invariants from Chern-Simons
  10. 10 Example: Trefoil invariant
  11. 11 Eigenbasis of Braiding operator
  12. 12 Polynomial invariant of trefoil
  13. 13 Trefoil evaluation continued
  14. 14 Figure 8 knot invariant
  15. 15 Broad classification of knots
  16. 16 Arborescent Knots
  17. 17 10152 and 1071 arborescent knots
  18. 18 Building blocks
  19. 19 Equivalent Building Blocks
  20. 20 Arborescent knot- Feynman diagram analogy
  21. 21 Family Approach: Arborescent knots
  22. 22 Arborescent knot invariants
  23. 23 Do we know duality matrix elements
  24. 24 Detection of Mutation
  25. 25 [2,1] colored HOMFLY-PT
  26. 26 Additional information in mixed representation
  27. 27 Mutation operation on two-tangles
  28. 28 Tangle and its My mutation
  29. 29 Knot invariant for the mutant pair
  30. 30 Knot Polynomials
  31. 31 Reasons for Integer coefficients
  32. 32 Khovanov Homology
  33. 33 Chain Complex
  34. 34 The vector space
  35. 35 Homological Invariant
  36. 36 Gauge-string duality in topological strings
  37. 37 Duality in topological strings
  38. 38 Topological String duality contd
  39. 39 Open topological string amplitudes
  40. 40 N integers from knot polynomials
  41. 41 VERIFICATION USING KNOT INVARIANTS
  42. 42 Can we write InZ [M] as closed string expansion?
  43. 43 InZM contd
  44. 44 Subtle Issues
  45. 45 Generalization of the duality to SO gauge groups
  46. 46 Oriented contribution
  47. 47 Witten's Intersecting brane Construction
  48. 48 Witten's intersecting brane constructioncontd
  49. 49 M-Theory description of Witten's model
  50. 50 Sourcing 0 term
  51. 51 Model A: Witten model
  52. 52 Two NS5-branes with relative orientation from Witten model
  53. 53 Relation to Ooguri-Vafa model
  54. 54 M-Theory description dual to Ooguri-Vafa
  55. 55 Summary and Open problems
  56. 56 Q&A

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