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Experimental solid state physics --- X-Ray Diffraction --- X-rays --- Rayons X --- Diffraction --- X-Ray Diffraction. --- 548.73 --- -#WSCH:MACR --- Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Electromagnetic waves --- Ionizing radiation --- Radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure --- X-ray diffraction --- Diffraction. --- X-ray diffraction. --- 548.73 X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure --- #WSCH:MACR --- Xray Diffraction --- Diffraction, X-Ray --- Diffraction, Xray --- Diffractions, X-Ray --- Diffractions, Xray --- X Ray Diffraction --- X-Ray Diffractions --- Xray Diffractions --- X-rays - Diffraction
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fysicochemie --- Analytical biochemistry --- Chemical and physical cristallography --- Crystallography --- Proteins --- X-Ray Diffraction --- X-ray crystallography --- Radiocristallographie --- Protéines --- analysis --- Crystallography. --- X-Ray Diffraction. --- 548.73 --- #WSCH:MACR --- Proteids --- Biomolecules --- Polypeptides --- Proteomics --- Crystallographies --- analysis. --- X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure --- Proteins. --- X-ray crystallography. --- 548.73 X-ray analysis (Roentgen radiography) of crystals. X-ray investigation of properties. X-ray structure --- Protéines --- Xray Diffraction --- Diffraction, X-Ray --- Diffraction, Xray --- Diffractions, X-Ray --- Diffractions, Xray --- X Ray Diffraction --- X-Ray Diffractions --- Xray Diffractions --- Chemical and physical crystallography
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Experimental solid state physics --- Theoretical spectroscopy. Spectroscopic techniques --- fysicochemie --- Thermal properties of solids --- Chemical and physical cristallography --- X-Ray Diffraction. --- 535.42 --- X-ray crystallography --- X-rays --- -Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Electromagnetic waves --- Ionizing radiation --- Radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- Crystallography --- Diffraction --- X-ray crystallography. --- Diffraction. --- -Diffraction --- 535.42 Diffraction --- -535.42 Diffraction --- Rays, Roentgen --- X-Ray Diffraction --- Xray Diffraction --- Diffraction, X-Ray --- Diffraction, Xray --- Diffractions, X-Ray --- Diffractions, Xray --- X Ray Diffraction --- X-Ray Diffractions --- Xray Diffractions --- Chemical and physical crystallography
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Optics. Quantum optics --- fysicochemie --- Computer. Automation --- Chemical and physical cristallography --- Radiography, Industrial. --- X-rays --- Diffraction. --- Chemical and physical crystallography --- X-rays - Diffraction. --- X-RAY DIFFRACTION --- METALS --- MINERALS --- CERAMICS --- INDUSTRIAL CHEMICALS --- MICROSTRUCTURE --- PROPERTIES
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Materials sciences --- Surfaces (Technology) --- Thin films --- Surfaces (Technologie) --- Analysis --- Analyse --- -Thin films --- -Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films --- Characterization of surface --- Surface analysis --- Surface characterization --- Chemistry, Analytic --- Surface chemistry --- Analysis. --- -Analysis --- Films, Thin --- SPUTTERING --- ELECTRON DIFFRACTION --- Energy loss --- AUGER ELECTRONS --- RUTHERFORD SCATTERING --- X-RAY DIFFRACTION --- CHANNELING --- PHOTOELECTRON SPECTROSCOPY --- Monograph --- Electrons --- Photoelectron spectroscopy. --- Spectroscopy, Photoelectron --- Electron spectroscopy --- Molecular orbitals --- Molecular spectra --- Molecular spectroscopy --- Photoelectricity --- Spectrum analysis --- Electron diffraction --- Diffraction --- Diffraction. --- Analytical chemistry --- Surfaces (Technology) - Analysis --- Thin films - Analysis
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The Rietveld method is a powerful and relatively new method for extracting detailed crystal structural information from X-ray and neutron powder diffraction data. Since such structural details dictate much of the physical and chemical attributes of materials, knowledge of them is crucial to our understanding of those properties and our ability to manipulate them. Since most materials of technological interest are not available as single crystals but often are available only in polycrystalline or powder form, the Rietveld method has become very important and is now widely used in all branches of science that deal with materials at the atomic level. This book, a collaboration by many authorities in the field, is intended primarily to have tutorial and advisory value for those who already have some experience with this important method, but an introductory chapter enables the book to be used as a first text for researchers starting in this area of science. The audience is thus comprised of all scientists using the method: graduate students who may be starting research in this area, powder diffraction specialists, crystallographers, physicists, chemists, and materials scientists.
Rietveld method --- X-rays --- -PFSR (X-ray crystallography) --- Profile refinement (X-ray crystallography) --- Rietveld analysis --- Rietveld refinement --- Whole-pattern-fitting structure refinement (X-ray crystallography) --- Rays, Roentgen --- Roentgen rays --- Roentgenograms --- Diffraction --- -Data processing --- Rietveld method. --- X-ray crystallography --- Electromagnetic waves --- Ionizing radiation --- Radiation --- Cathode rays --- Radiography --- Vacuum-tubes --- Technique --- PFSR (X-ray crystallography) --- Diffraction&delete& --- Data processing --- fysicochemie --- Chemical and physical cristallography --- Data processing. --- Monograph --- -Rays, Roentgen --- Chemical and physical crystallography --- X-rays - Diffraction - Data processing. --- -Diffraction --- Crystal structure --- X-ray diffraction
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Spectrometric and optical chemical analysis --- Hygiene. Public health. Protection --- Environmental protection. Environmental technology --- Biological microscopy --- fysicochemie --- Environmental health --- Industrial hygiene --- X-ray spectroscopy --- X-rays --- Electron microscopy --- Air Pollution --- Microscopy, Electron --- Occupational Diseases --- Spectrometry, X-Ray Emission --- Technique --- Diffraction --- analysis --- prevention & control --- AEROSOLS --- AIR POLLUTION --- ELECTRON MICROSCOPY --- X - ray fluorescence --- X-RAY DIFFRACTION --- Monograph --- Aerosols. --- Air --- Electron microscopy. --- Microscopy --- Air contaminants --- Air pollutants --- Air pollution --- Air pollution control --- Air toxics --- Airborne pollutants --- Atmosphere --- Contaminants, Air --- Control of air pollution --- Pollutants, Air --- Toxics, Air --- Pollution --- Air quality --- Atmospheric deposition --- Colloids --- Gases --- Pollution. --- Control
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fysicochemie --- Macromolecules --- Physical organic chemistry --- Chimie organique physique --- Macromolécules --- 541.64 --- Chemistry, Physical organic --- #WSCH:MACR --- Molecules --- Supramolecular chemistry --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Macromolecular chemistry. Polymerization products. Polycondensation products. Polyaddition products --- Macromolecules. --- Physical organic chemistry. --- 541.64 Macromolecular chemistry. Polymerization products. Polycondensation products. Polyaddition products --- Macromolécules --- High performance liquid chromatography. --- Infrared spectroscopy. --- Light --- Nuclear magnetic resonance. --- Optical rotatory dispersion. --- Scattering. --- Chemical chains --- Circular dichroism --- Diffusion --- Molecular weight --- Osmotic pressure --- Polymerization --- Polymers --- Sedimentation --- Thermodynamics --- Uv and visible spectroscopy --- Viscosity --- X-ray diffraction
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