Physical Methods of Chemistry: Determination of structural features of crystalline and amorphous solidsBryant W. Rossiter, John F. Hamilton Wiley, 1986 - Chemistry |
Contents
The Application of Neutron Diffraction Techniques | 123 |
Mössbauer Spectroscopy | 273 |
SolidState Nuclear Magnetic Resonance | 345 |
Copyright | |
1 other sections not shown
Common terms and phrases
absorption Acta Crystallogr amplitude analysis angle atoms average axis b₁ beam bond Bragg calculated carbon centers Chem chemical isomer shift chemical shift chemical-shift compounds crystal defect density dependence detector determined deuterium diffraction diffractometer diffuse scattering dipolar coupling disorder displacement distribution effect electron ENDOR ENDOR lines energy EXAFS example experimental frequency function hydrogen hyperfine intensity interaction iron(II isotopes layers Lett linear magic-angle spinning Magn magnetic field measured method molecular molecules Mössbauer spectra Mössbauer spectroscopy motion neighbors neutron nuclear nuclei observed obtained optical orientation parameters Patterson function peaks phase Phys plane polarization polymers positions proton pulse quadrupole radiation rays reciprocal lattice reciprocal space reflections relaxation Reson rotation sample Section shown in Figure signal solid space group Spaeth spin-lattice relaxation splitting structure factor studies superhyperfine techniques temperature tensor thermal transition unit cell values vector wave wavelength X-ray XANES