Polymers and Neutron ScatteringNeutron scattering has become a widely applied technique for studying problems in polymer science and technology. This is the first book written specifically for non-specialists that introduces the theoretical models and experimental techniques needed to understand results obtained from neutron scattering. In attempting to present a readable text that requires little expert knowledge, the authors have produced a practical volume that fills the gap between the often technical, pedagogic research articles that have characterized the literature and the almost entire absence of information available to the polymer scientist who desires a firmer grasp of the advantages offered by neutron scattering in materials research. Researchers and graduate students interested in polymers and neutron scattering will find this book useful and informative. |
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Results 1-3 of 76
Page 38
... depends on λ ( see Fig . 2.5 ) . The flux for H15 , H17 , and H18 in Fig . 2.4 show progressively more of the short wavelengths are lost as the guides become more curved . In spectrometers on pulsed sources , resolution in wavelength ...
... depends on λ ( see Fig . 2.5 ) . The flux for H15 , H17 , and H18 in Fig . 2.4 show progressively more of the short wavelengths are lost as the guides become more curved . In spectrometers on pulsed sources , resolution in wavelength ...
Page 125
... depends only on the form factor of the molecules . As one might expect its intensity goes through a maximum for x = 0.5 and disappears for x = 0 or x = 1 since the hypothesis of incompressibility demands zero scattering for pure ...
... depends only on the form factor of the molecules . As one might expect its intensity goes through a maximum for x = 0.5 and disappears for x = 0 or x = 1 since the hypothesis of incompressibility demands zero scattering for pure ...
Page 167
... depends only on chain statistics . 2. We have assumed for the sake of simplicity ( except in diagram III ' ) that we had a dilute solution . If the concentration increases the analysis of domains I and II becomes difficult since the ...
... depends only on chain statistics . 2. We have assumed for the sake of simplicity ( except in diagram III ' ) that we had a dilute solution . If the concentration increases the analysis of domains I and II becomes difficult since the ...
Other editions - View all
Polymers and Neutron Scattering Julia S. Higgins,Henri C. Benoit,Henri Benoît No preview available - 1996 |
Common terms and phrases
amplitude assume average b₁ beam calculation Chapter coherent concentration copolymer correlation corresponding cross section crystal curve defined degree of polymerization delta function depends detector deuterated diagram discussed distance effect elastic energy equation evaluate excluded volume experimental fluctuations form factor formula Fourier transform Gaussian chain gives hydrogenous incoherent scattering inelastic scattering integral interactions interface k₁ linear low q matrix method mixture molecular weight molecules monomer motion neutron scattering neutron sources nuclei observed obtained parameter particles peak phase phonon plot polydisperse polystyrene pulsed sources q range q values quantity quasielastic radius of gyration reactor reflection resolution result rotation sample scattered intensity scattering angle scattering laws scattering length shows solvent species spectrometer spheres structure factor surface technique temperature term time-of-flight tion unit volume V₁ vector vibrational volume fraction wave wavelength write zero angle Zimm