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International Tables for Crystallography (2006). Vol. C. ch. 7.4, pp. 653-665
https://doi.org/10.1107/97809553602060000607 |
Chapter 7.4. Correction of systematic errors
Chapter index
Absorption 7.4.1
Air scattering 7.4.4.4
Analyser
perfect-crystal 7.4.4.4
Anisotropic thermal diffuse scattering correction 7.4.2.1
Background 7.4.4
Beryllium acetate 7.4.4.4
Bragg–Brentano (Parrish) angle-dispersive diffractometers 7.4.4.1
Brillouin zone 7.4.2.4
Coherent multiple scattering 7.4.4.1
relativistic treatment 7.4.3.3
Compton shift formula 7.4.3.1
Conservation laws 7.4.2.3
Convolution of rocking curves 7.4.4.2
Correction factor
for powders 7.4.2.4
Correction of systematic error 7.4.1
Detection
systems 7.4.4.3
Detectors
background from 7.4.4.3
energy-dispersive 7.4.4.3
position-sensitive 7.4.4.3
solid-state 7.4.4.3
Elastic constants 7.4.2.1
Elastic wave, velocity of 7.4.2.2
Energy-dispersive
detectors 7.4.4.3
Fluorescence radiation 7.4.3.1
Hartree–Fock
self-consistent field 7.4.3.2.1
Incoherent multiple scattering 7.4.4.1
Incoherent scattering
functions (Table 7.4.3.2) 7.4.3.2
Line profile
calculated by convolution 7.4.4.2
Mössbauer radiation 7.4.2.2.2
Optic modes 7.4.2.1
Parallel-beam geometry 7.4.4.1
Parasitic scattering 7.4.4.1
Perfect-crystal analysers 7.4.4.4
Phase-space analysis 7.4.4.2
Phonons 7.4.2.1
Polarization
vector 7.4.2.2
Position-sensitive detectors 7.4.4.3
Powder diffraction 7.4.4.4
Powders, correction factor for 7.4.2.4
Pyrolytic graphite 7.4.4.4
Quartz monochromator 7.4.4.4
Scattering
coherent multiple 7.4.4.1
inelastic 7.4.3.1
multiple 7.4.4.1
multiple, incoherent 7.4.4.1
parasitic 7.4.4.1
Raman 7.4.3.1
Scattering functions
incoherent (Table 7.4.3.2) 7.4.3.2
Solid-state detectors 7.4.4.3
Sound velocity 7.4.2.3
correction, anisotropic 7.4.2.2.2
correction factor 7.4.2.2
correction factor for thermal neutrons 7.4.2.3
error 7.4.2.1
Thomas–Fermi method 7.4.3.2.2
Velocity of sound 7.4.2.3
Velocity of the elastic wave 7.4.2.2
Waller–Hartree method 7.4.3.2.1
White radiation 7.4.4