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The following pages do not link to other pages in E-neutrons wiki.
Showing below up to 100 results in range #1 to #100.
- Another test
- Applications of SANS in nanoscience
- Applications of neutron imaging
- Basic crystallography
- Basic properties of the neutron
- Basic statistical tools
- Basics of neutron scattering
- Beam attenuation due to scattering and absorption
- Beam optical components
- Coherent and incoherent scattering
- Computed tomography
- Correlation between nuclear and magnetic scattering
- Data analysis in neutron scattering
- Data analysis packages
- Determining the incoming neutron wavelength
- Diffraction from a powder
- Diffraction from crystalline materials
- Diffraction from crystals
- Diffraction from nano-sized systems
- Diffraction from single crystals with monochromatic radiation
- Elastic magnetic scattering
- Exercises in Basics of neutron scattering
- Exercises in Diffraction from crystals
- Exercises in Elastic magnetic scattering
- Exercises in Instrumentation
- Exercises in Magnetic neutron scattering
- Exercises in Monte Carlo simulations
- Exercises in Neutron sources and moderators
- Exercises in Reflection and Refraction
- Exercises in Scattering from phonons
- Exercises in Small angle neutron scattering
- Five reasons for using neutrons
- Imaging
- Inelastic magnetic neutron scattering
- Inelastic magnetic scattering
- Inelastic nuclear neutron scattering
- Instrument example: The two axis diffractometer
- Instrumentation
- Instrumentation for investigation of magnetic diffraction
- Instrumentation for investigation of magnetic excitation
- Instruments for inelastic neutron scattering
- Introduction to imaging
- Introduction to the Monte Carlo technique
- Lattice vibrations, classical treatment
- Laue diffraction
- Magnetic diffraction
- Magnetic excitations
- Magnetic ions
- Magnetic neutron scattering
- Magnetism in materials
- McStas simulation projects
- Monte Carlo ray-tracing packages for neutrons
- Monte Carlo simulation of neutron instrumentation
- Neutron cross section from ferromagnetic spin waves
- Neutron cross section of antiferromagnetic spin waves
- Neutron detectors
- Neutron guide systems
- Neutron reflectivity
- Neutron scattering facilities
- Neutron sources and moderators
- On these notes
- Page of all exercises
- Particle-wave duality
- Phonons, quantum mechanical treatment
- Powder scattering instruments
- Problem:Attenuation of the neutron beam
- Problem:Fourier transform
- Problem:Pinhole collimation
- Problem:SANS q-range and resolution
- Problem:Selection of materials for neutron scattering experiments
- Problem:The beam port
- Problem:The moderator temperature
- Problem:The neutron guide system
- Problem: A neutron guide system
- Problem: Attenuation of the neutron beam
- Problem: Bragg scattering from Bravais lattices
- Problem: Critical edge
- Problem: Estimating the circle area
- Problem: Magnetic reflectivity
- Problem: Phospholipid bilayer liposomes
- Problem: Reflectivity coefficient
- Problem: Reflectivity in magnetic materials
- Problem: Refractive index for "light" and "heavy" water
- Problem: SANS and SAXS from spherical surfactant micelles
- Problem: Scattering length density for "light" and "heavy" water
- Problem: Simulation of SANS scattering
- Problem: Simulation of incoherent scattering
- Problem: Snell's Law
- Problem: The cross section
- Problem: The structure factor for dilute systems
- Problem: Use of International Tables for Crystallography
- Problem: Validity of the semiclassical approximation
- Quantum mechanical derivation of neutron-phonon scattering
- Quantum mechanics of magnetic diffraction
- Quantum mechanics of nuclear diffraction
- Quantum mechanics of scattering
- Quantum treatment of elastic neutron scattering
- Quantum treatment of inelastic neutron scattering
- Radiography
- Reflection from a smooth, flat interface