## Elements of X-ray Diffraction1 Properties of X-rays 2 Geometry of Crystals 3 Diffraction I: Directions of Diffracted Beams 4 Diffraction II: Intensities of Diffracted Beams 5 Diffraction III: Non-Ideal Samples 6 Laure Photographs 7 Powder Photographs 8 Diffractometer and Spectrometer 9 Orientation and Quality of Single Crystals 10 Structure of Polycrystalline Aggregates 11 Determination of Crystal Structure 12 Precise Parameter Measurements 13 Phase-Diagram Determination 14 Order-Disorder Transformation 15 Chemical Analysis of X-ray Diffraction 16 Chemical Analysis by X-ray Spectrometry 17 Measurements of Residual Stress 18 Polymers 19 Small Angle Scatters 20 Transmission Electron Microscope |

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Results 1-3 of 87

Page 145

3. multiplicity

The first two of these have already been described, and the others will be

discussed in the following sections. 4-8 MULTIPLICITY

100 ...

3. multiplicity

**factor**, 4. Lorentz**factor**, 5. absorption**factor**, 6. temperature**factor**.The first two of these have already been described, and the others will be

discussed in the following sections. 4-8 MULTIPLICITY

**FACTOR**Consider the100 ...

Page 149

4-17 represents the height of the receiving slit in front of the detector. Inclusion of

this effect thus leads to a third geometrical

reflection. The length of any diffraction line being 27R sin 20B, where R is the

radius of ...

4-17 represents the height of the receiving slit in front of the detector. Inclusion of

this effect thus leads to a third geometrical

**factor**affecting the intensity of areflection. The length of any diffraction line being 27R sin 20B, where R is the

radius of ...

Page 233

4-9 demonstrated that one

polarization (L-P)

considerably over the width of a single line, when the line is broad and in the

high-angle ...

4-9 demonstrated that one

**factor**controlling these intensities was the Lorentz-polarization (L-P)

**factor**(1 + cos^20)/(sino 6 cos 6). This**factor**can varyconsiderably over the width of a single line, when the line is broad and in the

high-angle ...

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#### LibraryThing Review

User Review - ron_benson - LibraryThingExcellent reference book. Needs some updating in terms of advances in detector technology. Read full review

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### Common terms and phrases

alloy AuCu austenite axes axis back-reflection Bragg angle Bragg's law Bravais lattice calculated camera composition constant copper crystallite cubic curve decreases density detector determined diffracted beam diffracted intensity diffraction lines diffraction pattern diffractometer direction effect electrons energy equation error Ewald sphere example extrapolation face-centered face-centered cubic factor film fraction given grain hexagonal Hull/Debye–Scherrer incident beam indices integrated intensity lattice parameter lattice points Laue pattern Laue spots layer martensite measured metal normal observed obtained orthorhombic parallel peak percent phase photographic pinhole plane plot pole figure position powder pattern preferred orientation produce projection pulses radiation rays reciprocal lattice reciprocal space reflection relative rotation sample scattering shown in Fig shows slit solid solution space specimen stress substance superlattice surface symmetry temperature tetragonal texture tion transmission unit cell vector voltage wave wavelength x-ray diffraction x-ray tube