Part I. Using general principles
1. Introduction to scattering experiments (P.N. Pusey)
2. Scattering experiments: Experimental aspects, initial data
reduction and absolute calibration (P. Lindner)
3. General theorems in small-angle scattering (O. Spalla)
4. The inverse scattering problem in small angle scattering (O.
Glatter)
5. Fourier transformation and deconvolution (O. Glatter)
Part II. Methods
6. Instrumentation for small-angle x-ray and neutron scattering and
instrumental smearing effects (J.S. Pedersen)
7. Contrast and contrast variaion in neutron, x-ray and light
scatering (P. Schurtenberger)
8. Static light scattering of large systems (O. Glatter)
9. Dynamic light scattering (P.N. Pusey)
10.Inelastic neutron scattering: Dynamics of polymers (R. Zorn)
Part III. Revealing microstructures of soft condensed matter
11. Static properties of polymers (P. Schurtenberger)
12. Surfactant micelles and bilayers: Shapes and interactions (G.
Porte)
13. Scattering by microemulsions (Th. Zemb)
14. Interacting colloidal suspensions (R. Klein)
15. Monte Carlo simulation techniques applied in the analysis of
small-angle scattering data from colloids and polymer system (J.S.
Pedersen)
16. Modelling of small-angle scattering data from colloids and
polymer systems (J.S. Pedersen)
Part IV. Special Applications
17. Scattering experiments under external constraints: SANS and
Shear flow (P. Lindner)
18. Using synchrotron radiation to study structure development in
polymer processing (A.J.Ryan)
19. Biological applications of small-angle neutron scattering (R.P.
May)
20. Light scattering in turbid suspensions, a tutorial (J.
Ricka)
21. Use of scattering methods in chemical industr - SAXS an SANS
from fibers and films (J. Rieger)
Subject Index
Ask a Question About this Product More... |