Methods of X-ray and Neutron Scattering in Polymer Science
ISBN13: 9780195113211ISBN10: 0195113217
Hardcover, 352 pages
Dec 1999,
In Stock
Retail Price to Students:
$144.95 (04)
352 pages;
158 figures;
6-1/8 x 9-1/4;
ISBN13: 978-0-19-511321-1ISBN10: 0-19-511321-7
Table of Contents
1.
Basics of X-ray and Neutron Scattering
1.1.
Properties of X-rays and Neutrons
1.2.
Scattering and Interference
1.3.
Scattering of X-rays
1.4.
Scattering of Neutrons
1.5.
Auto-correlation Function and Reciprocal Space
1.6.
Scattering Due to the Sample as a Whole
1.7.
Diffraction by Crystals
2.
Experimental Techniques
2.1.
Radiation Source
2.2.
Monochromatization
2.3.
Absorption
2.4.
Detectors
2.5.
Cameras and Diffractometers
2.6.
Multiple Scattering
2.7.
Absolute Intensity Calibration
3.
Crystalline Polymers
3.1.
Introduction
3.2.
Lattice Parameters
3.3.
Crystal Structure Analysis
3.4.
Line Broadening and Crystal Imperfections
3.5.
Degree of Crystallinity
3.6.
Orientation
4.
Amorphous Polymers
4.1.
Short Range Order
4.2.
Thermal Density Fluctuation
5.
Small Angle Scattering
5.1.
Model Structures Studied by Small Angle Scattering
5.2.
Dilute Particulate System
5.3.
Non-particulate Two-phase system
5.4.
Fractal Objects
5.5.
Periodic System
5.6.
Slit Collimation and Desmearing
6.
Polymer Blends, Block Copolymers, and Deuterium Labeling
6.1.
Polymer Blends
6.2.
Block Copolymers
6.3.
Deuterium Labeling
7.
Methods of Study for Surfaces and Interfaces
7.1.
Introduction
7.2.
Reflectivity
7.3.
Approximate Method
7.4.
Examples of Experimental Studies
8.
Inelastic Neutron Scattering
8.1.
Theory of Inelastic Scattering
8.2.
Simple Models of Motions
8.3.
Spectrometers
8.4.
Examples of Experimental Studies
Appendix A.
Refresher on Complex Numbers
Appendix B.
Fourier Transform
Appendix C.
Reciprocal Lattice
Appendix D.
Constants and Conversion Factors
Glossary of Symbols
