Chemical Applications of Thermal Neutron ScatteringBertram Terence Martin Willis |
Contents
G C Stirling | 31 |
NEUTRON INELASTIC SCATTERING AND MOLECULAR | 49 |
MODELS FOR CALCULATING THE PROPERTIES | 78 |
Copyright | |
13 other sections not shown
Common terms and phrases
amplitude approximation average beam Bragg Bragg scattering Brillouin zone calculated Chapter chem cluster cm-¹ cm¹ coherent scattering correlation function corresponding covalency defects density deuterium diffuse scattering dispersion curves displacements distribution effects Egelstaff elastic electron energy transfer experimental Fender fluorite form factor Fourier frequencies give glasses hydrogen atoms hydrogen bonding incoherent inelastic scattering infra-red interactions interstitial isotopic lattice ligand magnetic measurements methods Mn2+ modes molecular crystals molecules motion naphthalene neutron diffraction neutron scattering non-stoichiometric compounds normal observed obtained optical orbitals oxygen atoms parameters Pawley peak phase phonon Phys plane polarization polymer chains potential proton reciprocal lattice rotation sample scattering cross-section scattering experiments scattering intensity scattering length shown in Fig shows solid spectra spectrometer spectroscopy spectrum spin structure factor symmetry temperature thermal time-of-flight unit cell vacancies values velocity vibrational wave vector wavelength X-ray zero ΦΩ