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Showing below up to 119 results in range #1 to #119.

1. Another test
2. Applications of SANS in nanoscience
3. Applications of neutron imaging
4. Basic crystallography
5. Basic statistical tools
6. Beam attenuation due to scattering and absorption
7. Beam optical components
8. Coherent and incoherent scattering
9. Computed tomography
10. Correlation between nuclear and magnetic scattering
11. Data analysis packages
12. Diffraction from a powder
13. Diffraction from crystalline materials
14. Diffraction from nano-sized systems
15. Diffraction from single crystals with monochromatic radiation
16. Exercises in Elastic magnetic scattering
17. Inelastic magnetic neutron scattering
18. Instrument example: The two axis diffractometer
19. Instrumentation for investigation of magnetic diffraction
20. Instrumentation for investigation of magnetic excitation
21. Instruments for inelastic neutron scattering
22. Introduction to imaging
23. Introduction to the Monte Carlo technique
24. Lattice vibrations, classical treatment
25. Laue diffraction
26. Magnetic excitations
27. Magnetic ions
28. Magnetism in materials
29. Moderators
30. Monte Carlo ray-tracing packages for neutrons
31. Neutron cross section from ferromagnetic spin waves
32. Neutron cross section of antiferromagnetic spin waves
33. Neutron detectors
34. Neutron guide systems
35. Neutron sources
36. Page of all exercises
37. Phonons, quantum mechanical treatment
38. Powder scattering instruments
39. Problem:Attenuation of the neutron beam
40. Problem: A neutron guide system
41. Problem: Attenuation of the neutron beam
42. Problem: Critical edge
43. Problem: Estimating the circle area
44. Problem: Magnetic reflectivity
45. Problem: Phospholipid bilayer liposomes
46. Problem: Reflectivity coefficient
47. Problem: Reflectivity in magnetic materials
48. Problem: Refractive index for "light" and "heavy" water
49. Problem: SANS and SAXS from spherical surfactant micelles
50. Problem: Scattering length density for "light" and "heavy" water
51. Problem: Simulation of SANS scattering
52. Problem: Simulation of incoherent scattering
53. Problem: Snell's Law
54. Problem: The cross section
55. Problem: Use of International Tables for Crystallography
56. Problem: Validity of the semiclassical approximation
57. Quantum mechanical derivation of neutron-phonon scattering
58. Quantum mechanics of magnetic diffraction
59. Quantum mechanics of nuclear diffraction
60. Quantum mechanics of scattering
61. Radiography
62. Reflection from a smooth, flat interface
63. Reflectivity of periodically stratified media
64. Reflectivity of stratified media
65. Rough and diffuse interfaces
66. Scattering from magnetic dynamics
67. Scattering from nuclear dynamics
68. Scattering of neutrons from magnetic ions
69. Scattering theory for magnetic dynamics
70. Scattering theory for nuclear dynamics
71. Simple simulation problems
72. Simulation Project SANS-2: A full virtual experiment - Liposome sample
73. Simulation Project SANS-2: A full virtual experiment - spheres sample
74. Simulation Project SANS-2: Data analysis
75. Simulation Project SANS-2: Detector
76. Simulation Project SANS-2: Normalizing data
77. Simulation Project SANS-2: Pinhole collimation
78. Simulation Project SANS-2: Resolution of the SANS instrument
79. Simulation Project SANS-2: The effect of gravity
80. Simulation Project SANS-2: The source-guide system
81. Simulation Project SANS-2: Velocity selector
82. Simulation Project powder: A full virtual experiment
83. Simulation Project powder: Collimator
84. Simulation Project powder: DMC multi-detector
85. Simulation Project powder: Determine the crystal structure of the sample
86. Simulation Project powder: Emulating real experimental data
87. Simulation Project powder: Improve your instrument
88. Simulation Project powder: Monochromator
89. Simulation Project powder: Sample
90. Simulation Project powder: The guide system
91. Simulation Project tripleaxis: A focusing monochromator
92. Simulation Project tripleaxis: A full virtual experiment
93. Simulation Project tripleaxis: Analyzer and detector
94. Simulation Project tripleaxis: Collimator
95. Simulation Project tripleaxis: Determine the full phonon dispersion of the sample
96. Simulation Project tripleaxis: Energy resolution
97. Simulation Project tripleaxis: Filter
98. Simulation Project tripleaxis: Phonon sample
99. Simulation Project tripleaxis: The resolution function
100. Simulation Project tripleaxis: The source-guide system
101. Simulation Project tripleaxis: Tuning the RITA-2 monochromator
102. Simulation project SANS-2: A small angle neutron scattering instrument
103. Simulation project powder: A powder diffractometer
104. Simulation project reflectometer: A neutron reflectometer
105. Simulation project tripleaxis: A triple-axis spectrometer
106. Small-angle scattering instruments
107. Spectrometers: Instruments for inelastic neutron scattering
108. TOC limit/styles.css
109. Techniques for neutron ray-tracing
110. Test page
111. The magnetic scattering length
112. The neutron cross sections
113. The neutron scattering cross section from nano-sized particles
114. The refractive index
115. The scattering cross section for phonons
116. The total cross section for a system of particles
117. Thin films and interfaces
118. Useful model-free approximations in SANS
119. Wave description of nuclear scattering