Overview Lecture on Basics of Frustrated Magnets - Experimental by Yogesh Singh

Overview Lecture on Basics of Frustrated Magnets - Experimental by Yogesh Singh

International Centre for Theoretical Sciences via YouTube Direct link

Overview Lecture on Basics of Frustrated Magnets: Experimental-1

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Overview Lecture on Basics of Frustrated Magnets: Experimental-1

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Overview Lecture on Basics of Frustrated Magnets - Experimental by Yogesh Singh

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  1. 1 Overview Lecture on Basics of Frustrated Magnets: Experimental-1
  2. 2 Where to look for Magnetism
  3. 3 Materials to Models: A case study of La2 CuO4
  4. 4 Splitting of d-orbitals in an octahedral crystal field
  5. 5 Materials to Models: A case study of La, CuO4
  6. 6 The Mott Hubbard insulator
  7. 7 Materials to Models: A case study of La, Cuo
  8. 8 Effective Theory: Heisenberg Model
  9. 9 Square lattice antiferromagnet
  10. 10 Broken Symmetry, Order Parameter
  11. 11 Excitations of the Antiferomagnet
  12. 12 Confinement
  13. 13 Conventional Magnets
  14. 14 Geometrically Frustrated Magnets
  15. 15 Geometric Magnetic Frustration
  16. 16 Consequences of Frustration
  17. 17 Excitations in spin liquids: Fractional Deconfined Particles
  18. 18 Quantum Spin Liquids
  19. 19 Valence Bond States
  20. 20 Experimental Signatures for Spin Liquids
  21. 21 Frustrated lattices: examples
  22. 22 Shastry-Sutherland Lattice
  23. 23 Triangular Lattice Organics
  24. 24 K-ET : Heat Capacity + Thermal Conductivity
  25. 25 dmit: Heat Capacity + Thermal Conductivity
  26. 26 Kagome : Herbertsmithite + others
  27. 27 Hyper-Kagome : Na4lr308
  28. 28 Na4lr308 : Resistivity
  29. 29 Nadir308 : Magnetic and Thermal Properties
  30. 30 NaAll308 : Inhomogeneous Frozen state revealed by musk and NMR
  31. 31 Kagome bi-layer QSL Ca1Cr,028
  32. 32 Route to the Material Ca1Cr,928
  33. 33 Route to the Material Ca10Cr7O28
  34. 34 Gapless Spin Liquid State in Ca10Cr7O28
  35. 35 Magnetic Interactions : Novel Frustration Mechanism
  36. 36 Summary

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