Neutron, X-ray and Light Scattering: Introduction to an Investigative Tool for Colloidal and Polymeric Systems : Proceedings of the European Workshop on Neutron, X-Ray and Light Scattering as an Investigative Tool for Colloidal and Polymeric Systems, Bombannes, France, 27 May-2 June, 1990Peter Lindner, Thomas Zemb This book is devoted to a simple practical approach to neutron, X-ray and light scattering experiments, involving model calculation of the scattering and mathematical transformation. It is intended to attract colloid and polymer scientists using scattering methods in their laboratory or at common research facilities. The primary objective is to explain the current methodology of elastic and quasi-elastic scattering techniques (avoiding both under and over-exploitation of data) rather than a general course on colloids and polymers. Basic information on data interpretation, on the complementarity of the different types of radiation, as well as information on recent applications and developments are presented. |
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Results 1-3 of 60
Page 75
... means that we have to solve the Maxwell equations to solve the scattering problem . This was possible for a long time only for spheres . New numerical routines ( Barber & Yeh 1975 ) allow the calculation for ellipsoids of revolution ...
... means that we have to solve the Maxwell equations to solve the scattering problem . This was possible for a long time only for spheres . New numerical routines ( Barber & Yeh 1975 ) allow the calculation for ellipsoids of revolution ...
Page 303
... means , that we neglect effects of multiple scattering . Single scattering means that all particles must be exposed to the same incident intensity and that in the neighborhood of any particle , the total scattered intensity by all other ...
... means , that we neglect effects of multiple scattering . Single scattering means that all particles must be exposed to the same incident intensity and that in the neighborhood of any particle , the total scattered intensity by all other ...
Page 352
... means usually less than 1 % volume fraction . Experimentally , dilute solutions means that the structure factor S ( Q ) is close to 1 within experimental accuracy at Q = 0 . Direct micelle : refers to a micelle with ionic headroup on ...
... means usually less than 1 % volume fraction . Experimentally , dilute solutions means that the structure factor S ( Q ) is close to 1 within experimental accuracy at Q = 0 . Direct micelle : refers to a micelle with ionic headroup on ...
Contents
Introduction to scattering experiments | 3 |
Initial data treatment | 19 |
Smallangle scattering and light scattering | 33 |
Copyright | |
15 other sections not shown
Common terms and phrases
amplitude angle scattering Appl atoms average beam calculated Chem chord distribution clusters coefficient coil colloidal components concentration contrast variation correlation function corresponds counterions Cryst crystal curvature Debye detector determined deuterated diffusion dilute dimension distance DLVO dodecanol effective electron energy equation experimental extrapolation Figure fluctuations Fourier transform fractal Glatter Guinier homogeneous incoherent scattering interactions interface ionic isotopic Kratky labelled layer light scattering linear Macromolecules measured method micelles molecular molecules monodisperse monomers neutron scattering obtained parameters particles PDDF peak phase Phys polydisperse polymer chain polystyrene Porod potential problem proteins radius of gyration range refractive index sample scattering curve scattering experiments scattering function scattering intensity scattering length scattering vector shear gradient small-angle scattering solvent spheres spherical structure factor Stuhrmann subunits surface surfactant suspensions Synchrotron Radiation technique temperature term virial volume fraction wavelength X-ray scattering Zemb zero