Neutron ScatteringG. Kostorz |
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Page 22
... nuclear scattering cross section is obtained by taking the integral in Eq . ( 13 ) over the volume of the nucleus ... nuclear property , it varies from isotope to isotope , and it even takes two different values for nuclei with a nuclear ...
... nuclear scattering cross section is obtained by taking the integral in Eq . ( 13 ) over the volume of the nucleus ... nuclear property , it varies from isotope to isotope , and it even takes two different values for nuclei with a nuclear ...
Page 23
... nuclear - spin interaction or isotope ( nuclear ) disorder . The incoherent scattering cross section is zero only for single ( pure ) isotopes of nuclear spin zero . Some important isotopes with zero spin are 12C ( natural abundance ...
... nuclear - spin interaction or isotope ( nuclear ) disorder . The incoherent scattering cross section is zero only for single ( pure ) isotopes of nuclear spin zero . Some important isotopes with zero spin are 12C ( natural abundance ...
Page 496
... nuclear spin dependent capture or incoherent scattering processes . Magnetized iron polarizing filters depend on the interference between nuclear and magnetic scattering : the polarization cross section is given by ~ N22 Op = Nλ2 Σ Σ ...
... nuclear spin dependent capture or incoherent scattering processes . Magnetized iron polarizing filters depend on the interference between nuclear and magnetic scattering : the polarization cross section is given by ~ N22 Op = Nλ2 Σ Σ ...
Contents
Neutron Production and Detection | 12 |
Basic Scattering Theory | 21 |
Diffraction from Crystals | 30 |
Copyright | |
18 other sections not shown
Other editions - View all
Neutron Scattering: Treatise on Materials Science and Technology, Volume 15 G. Kostorz Limited preview - 2013 |
Common terms and phrases
alloys angle application atoms average beam Bragg calculated cell chapter coherent concentration constant containing contributions corresponding cross section crystal curves defect defined density dependence described detailed detector determined diffraction diffuse direction discussed displacements distribution domain effects elastic elastic scattering electron energy et al example experimental experiments factor field flux forces frequency function give given hydrogen important incident incoherent indicate inelastic intensity interaction Kostorz lattice limit Lovesey magnetic materials means measurements metal method mode monochromator neutron diffraction neutron scattering nuclear observed obtained orientation parameters peak phase phonon Phys plane polarization polymer positions possible properties range recent reflection relative resolution sample shown shows simple solid solution space structure studies technique temperature theory thermal tion transition unit values vector volume wave wavelength width x-ray
References to this book
Einführung in die Kristallographie Will Kleber,Hans-Joachim Bautsch,Joachim Bohm No preview available - 1998 |