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  1. Introduction to neutron scattering‏‎ (22:14, 18 February 2020)
  2. On these notes‏‎ (22:14, 18 February 2020)
  3. Neutron scattering facilities‏‎ (22:14, 18 February 2020)
  4. Basic properties of the neutron‏‎ (22:14, 18 February 2020)
  5. Five reasons for using neutrons‏‎ (22:14, 18 February 2020)
  6. Another test‏‎ (22:15, 18 February 2020)
  7. Diffraction from crystalline materials‏‎ (22:15, 18 February 2020)
  8. Beam optical components‏‎ (22:15, 18 February 2020)
  9. Computed tomography‏‎ (22:15, 18 February 2020)
  10. Basic statistical tools‏‎ (22:15, 18 February 2020)
  11. Basic crystallography‏‎ (22:15, 18 February 2020)
  12. Diffraction from a powder‏‎ (22:15, 18 February 2020)
  13. Determining the incoming neutron wavelength‏‎ (22:15, 18 February 2020)
  14. Data analysis in neutron scattering‏‎ (22:15, 18 February 2020)
  15. Data analysis packages‏‎ (22:15, 18 February 2020)
  16. Basics of neutron scattering‏‎ (22:15, 18 February 2020)
  17. Applications of neutron imaging‏‎ (22:15, 18 February 2020)
  18. Coherent and incoherent scattering‏‎ (22:15, 18 February 2020)
  19. Beam attenuation due to scattering and absorption‏‎ (22:15, 18 February 2020)
  20. Correlation between nuclear and magnetic scattering‏‎ (22:15, 18 February 2020)
  21. Diffraction from single crystals with monochromatic radiation‏‎ (22:15, 18 February 2020)
  22. Exercises in Monte Carlo simulations‏‎ (22:15, 18 February 2020)
  23. Exercises in Neutron sources and moderators‏‎ (22:15, 18 February 2020)
  24. Imaging‏‎ (22:15, 18 February 2020)
  25. Exercises in Basics of neutron scattering‏‎ (22:15, 18 February 2020)
  26. Inelastic nuclear neutron scattering‏‎ (22:15, 18 February 2020)
  27. Exercises in Instrumentation‏‎ (22:15, 18 February 2020)
  28. Elastic magnetic scattering‏‎ (22:15, 18 February 2020)
  29. Exercises in Diffraction from crystals‏‎ (22:15, 18 February 2020)
  30. Diffraction from crystals‏‎ (22:15, 18 February 2020)
  31. Instrument example: The two axis diffractometer‏‎ (22:15, 18 February 2020)
  32. Inelastic magnetic neutron scattering‏‎ (22:15, 18 February 2020)
  33. Exercises in Magnetic neutron scattering‏‎ (22:15, 18 February 2020)
  34. Exercises in Reflection and Refraction‏‎ (22:15, 18 February 2020)
  35. Exercises in Small angle neutron scattering‏‎ (22:15, 18 February 2020)
  36. Diffraction from nano-sized systems‏‎ (22:15, 18 February 2020)
  37. Exercises in Elastic magnetic scattering‏‎ (22:15, 18 February 2020)
  38. Inelastic magnetic scattering‏‎ (22:15, 18 February 2020)
  39. Exercises in Scattering from phonons‏‎ (22:15, 18 February 2020)
  40. Magnetic excitations‏‎ (22:15, 18 February 2020)
  41. Instrumentation for investigation of magnetic excitation‏‎ (22:15, 18 February 2020)
  42. Laue diffraction‏‎ (22:15, 18 February 2020)
  43. Introduction to imaging‏‎ (22:15, 18 February 2020)
  44. Introduction to the Monte Carlo technique‏‎ (22:15, 18 February 2020)
  45. Lattice vibrations, classical treatment‏‎ (22:15, 18 February 2020)
  46. McStas simulation projects‏‎ (22:15, 18 February 2020)
  47. Instruments for inelastic neutron scattering‏‎ (22:15, 18 February 2020)
  48. Magnetic ions‏‎ (22:15, 18 February 2020)
  49. Magnetic neutron scattering‏‎ (22:15, 18 February 2020)
  50. Magnetic diffraction‏‎ (22:15, 18 February 2020)
  51. Instrumentation‏‎ (22:15, 18 February 2020)
  52. Magnetism in materials‏‎ (22:15, 18 February 2020)
  53. Instrumentation for investigation of magnetic diffraction‏‎ (22:15, 18 February 2020)
  54. Neutron guide systems‏‎ (22:15, 18 February 2020)
  55. Neutron sources and moderators‏‎ (22:15, 18 February 2020)
  56. Neutron reflectivity‏‎ (22:15, 18 February 2020)
  57. Phonons, quantum mechanical treatment‏‎ (22:15, 18 February 2020)
  58. Monte Carlo simulation of neutron instrumentation‏‎ (22:15, 18 February 2020)
  59. Page of all exercises‏‎ (22:15, 18 February 2020)
  60. Neutron cross section of antiferromagnetic spin waves‏‎ (22:15, 18 February 2020)
  61. Monte Carlo ray-tracing packages for neutrons‏‎ (22:15, 18 February 2020)
  62. Neutron cross section from ferromagnetic spin waves‏‎ (22:15, 18 February 2020)
  63. Neutron detectors‏‎ (22:15, 18 February 2020)
  64. Problem: Attenuation of the neutron beam‏‎ (22:15, 18 February 2020)
  65. Problem: Phospholipid bilayer liposomes‏‎ (22:15, 18 February 2020)
  66. Problem: Estimating the circle area‏‎ (22:15, 18 February 2020)
  67. Problem: Critical edge‏‎ (22:15, 18 February 2020)
  68. Problem: Bragg scattering from Bravais lattices‏‎ (22:15, 18 February 2020)
  69. Powder scattering instruments‏‎ (22:15, 18 February 2020)
  70. Problem: Magnetic reflectivity‏‎ (22:15, 18 February 2020)
  71. Problem: A neutron guide system‏‎ (22:15, 18 February 2020)
  72. Problem:Attenuation of the neutron beam‏‎ (22:15, 18 February 2020)
  73. Problem: Simulation of incoherent scattering‏‎ (22:15, 18 February 2020)
  74. Problem: Reflectivity coefficient‏‎ (22:15, 18 February 2020)
  75. Problem: Simulation of SANS scattering‏‎ (22:15, 18 February 2020)
  76. Problem: Snell's Law‏‎ (22:15, 18 February 2020)
  77. Problem: The structure factor for dilute systems‏‎ (22:15, 18 February 2020)
  78. Problem: Reflectivity in magnetic materials‏‎ (22:15, 18 February 2020)
  79. Problem: Scattering length density for "light" and "heavy" water‏‎ (22:15, 18 February 2020)
  80. Problem: SANS and SAXS from spherical surfactant micelles‏‎ (22:15, 18 February 2020)
  81. Problem: The cross section‏‎ (22:15, 18 February 2020)
  82. Problem: Refractive index for "light" and "heavy" water‏‎ (22:15, 18 February 2020)
  83. Reflectivity of periodically stratified media‏‎ (22:15, 18 February 2020)
  84. Problem: Use of International Tables for Crystallography‏‎ (22:15, 18 February 2020)
  85. Quantum mechanical derivation of neutron-phonon scattering‏‎ (22:15, 18 February 2020)
  86. Scattering from nuclear dynamics‏‎ (22:15, 18 February 2020)
  87. Scattering theory for magnetic dynamics‏‎ (22:15, 18 February 2020)
  88. Reflectivity of stratified media‏‎ (22:15, 18 February 2020)
  89. Rough and diffuse interfaces‏‎ (22:15, 18 February 2020)
  90. Quantum mechanics of magnetic diffraction‏‎ (22:15, 18 February 2020)
  91. Quantum treatment of inelastic neutron scattering‏‎ (22:15, 18 February 2020)
  92. Scattering from magnetic dynamics‏‎ (22:15, 18 February 2020)
  93. Reflection from a smooth, flat interface‏‎ (22:15, 18 February 2020)
  94. Scattering from lattice vibrations‏‎ (22:15, 18 February 2020)
  95. Quantum treatment of elastic neutron scattering‏‎ (22:15, 18 February 2020)
  96. Quantum mechanics of scattering‏‎ (22:15, 18 February 2020)
  97. Scattering of neutrons from magnetic ions‏‎ (22:15, 18 February 2020)
  98. Radiography‏‎ (22:15, 18 February 2020)
  99. Quantum mechanics of nuclear diffraction‏‎ (22:15, 18 February 2020)
  100. Problem: Validity of the semiclassical approximation‏‎ (22:15, 18 February 2020)

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