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Showing below up to 100 results in range #1 to #100.
- (hist) Basic crystallography [28,878 bytes]
- (hist) The neutron cross sections [25,155 bytes]
- (hist) Magnetic excitations [24,436 bytes]
- (hist) Diffraction from crystalline materials [21,255 bytes]
- (hist) Magnetism in materials [17,745 bytes]
- (hist) The neutron scattering cross section from nano-sized particles [16,969 bytes]
- (hist) Scattering of neutrons from magnetic ions [16,215 bytes]
- (hist) Lattice vibrations, classical treatment [15,048 bytes]
- (hist) Problem: Bragg scattering from Bravais lattices [13,280 bytes]
- (hist) Moderators [12,851 bytes]
- (hist) Wave description of nuclear scattering [12,558 bytes]
- (hist) Scattering theory for magnetic dynamics [12,099 bytes]
- (hist) Quantum mechanical derivation of neutron-phonon scattering [12,092 bytes]
- (hist) Computed tomography [11,903 bytes]
- (hist) Neutron guide systems [11,468 bytes]
- (hist) Radiography [11,380 bytes]
- (hist) Techniques for neutron ray-tracing [11,034 bytes]
- (hist) Quantum mechanics of scattering [9,930 bytes]
- (hist) Applications of neutron imaging [9,593 bytes]
- (hist) Quantum mechanics of magnetic diffraction [9,480 bytes]
- (hist) Reflectivity of stratified media [9,326 bytes]
- (hist) Determining the incoming neutron wavelength [9,269 bytes]
- (hist) Problem:Bragg scattering from non-Bravais lattices [8,806 bytes]
- (hist) Neutron sources [8,797 bytes]
- (hist) Simulation project reflectometer: A neutron reflectometer [8,755 bytes]
- (hist) Quantum mechanics of nuclear diffraction [8,372 bytes]
- (hist) Magnetic diffraction [8,370 bytes]
- (hist) Monte Carlo ray-tracing packages for neutrons [8,369 bytes]
- (hist) The scattering cross section for phonons [8,219 bytes]
- (hist) Reflection from a smooth, flat interface [8,165 bytes]
- (hist) Problem:Classical lattice vibrations in one dimension [7,807 bytes]
- (hist) Spectrometers: Instruments for inelastic neutron scattering [7,294 bytes]
- (hist) Scattering theory for nuclear dynamics [7,067 bytes]
- (hist) Problem:The neutron guide system [6,840 bytes]
- (hist) Phonons, quantum mechanical treatment [6,631 bytes]
- (hist) Problem:Polydisperse spheres [6,420 bytes]
- (hist) Problem: A neutron guide system [6,268 bytes]
- (hist) Coherent and incoherent scattering [6,221 bytes]
- (hist) Instruments for inelastic neutron scattering [6,065 bytes]
- (hist) Inelastic magnetic neutron scattering [6,052 bytes]
- (hist) Problem:The beam port [5,815 bytes]
- (hist) Neutron cross section of antiferromagnetic spin waves [5,647 bytes]
- (hist) Introduction to the Monte Carlo technique [5,605 bytes]
- (hist) Introduction to imaging [5,605 bytes]
- (hist) Problem:Selection of materials for neutron scattering experiments [5,570 bytes]
- (hist) Beam optical components [5,316 bytes]
- (hist) Diffraction from single crystals with monochromatic radiation [5,262 bytes]
- (hist) Correlation between nuclear and magnetic scattering [5,210 bytes]
- (hist) Neutron cross section from ferromagnetic spin waves [5,179 bytes]
- (hist) The refractive index [5,169 bytes]
- (hist) Powder scattering instruments [5,018 bytes]
- (hist) Problem: Critical edge [5,007 bytes]
- (hist) Problem:The moderator temperature [4,955 bytes]
- (hist) Problem:Fourier transform [4,904 bytes]
- (hist) Useful model-free approximations in SANS [4,468 bytes]
- (hist) Problem:SANS q-range and resolution [4,370 bytes]
- (hist) Problem: Use of International Tables for Crystallography [4,359 bytes]
- (hist) Problem:Scattering form factor for spheres [4,239 bytes]
- (hist) Neutron detectors [4,212 bytes]
- (hist) Magnetic ions [4,208 bytes]
- (hist) Neutron scattering facilities [4,191 bytes]
- (hist) Problem:The collimator [4,175 bytes]
- (hist) Problem: SANS and SAXS from spherical surfactant micelles [4,133 bytes]
- (hist) On these notes [3,991 bytes]
- (hist) Diffraction from a powder [3,949 bytes]
- (hist) The magnetic scattering length [3,801 bytes]
- (hist) Applications of SANS in nanoscience [3,703 bytes]
- (hist) Introduction to neutron scattering [3,629 bytes]
- (hist) Five reasons for using neutrons [3,557 bytes]
- (hist) Small-angle scattering instruments [3,520 bytes]
- (hist) Diffraction from nano-sized systems [3,508 bytes]
- (hist) Problem:Hydrogen as a moderator [3,450 bytes]
- (hist) Basics of neutron scattering [3,307 bytes]
- (hist) Main Page [3,214 bytes]
- (hist) Page of all exercises [3,205 bytes]
- (hist) Monte Carlo simulation of neutron instrumentation [3,162 bytes]
- (hist) Problem:The Be filter [3,139 bytes]
- (hist) Problem: Estimating the circle area [3,138 bytes]
- (hist) Reflectivity of periodically stratified media [3,117 bytes]
- (hist) Instrumentation [3,057 bytes]
- (hist) Magnetic neutron scattering [3,020 bytes]
- (hist) Problem:Simple Bragg scattering, the monochromator [2,932 bytes]
- (hist) Scattering from lattice vibrations [2,760 bytes]
- (hist) Scattering from magnetic dynamics [2,708 bytes]
- (hist) Rough and diffuse interfaces [2,698 bytes]
- (hist) Diffraction from crystals [2,672 bytes]
- (hist) Laue diffraction [2,660 bytes]
- (hist) Basic statistical tools [2,650 bytes]
- (hist) Neutron reflectivity [2,522 bytes]
- (hist) Problem: Validity of the semiclassical approximation [2,514 bytes]
- (hist) Beam attenuation due to scattering and absorption [2,438 bytes]
- (hist) Small angle neutron scattering, SANS [2,290 bytes]
- (hist) Particle-wave duality [2,284 bytes]
- (hist) Problem: Refractive index for "light" and "heavy" water [2,232 bytes]
- (hist) Problem: Scattering length density for "light" and "heavy" water [2,157 bytes]
- (hist) Instrument example: The two axis diffractometer [2,057 bytes]
- (hist) Elastic magnetic scattering [1,965 bytes]
- (hist) Inelastic nuclear neutron scattering [1,956 bytes]
- (hist) Simulation Project tripleaxis: A full virtual experiment [1,842 bytes]
- (hist) Problem: Attenuation of the neutron beam [1,774 bytes]