Neutron Scattering at a Pulsed Source,R. J. Newport, B. D. Rainford, R. Cywinski This introduction to the theory and experimental techniques associated with neutron scattering has been distilled from a course of lectures presented at a summer school for postgraduate students of chemistry, physics, materials science and biology. Aimed primarily at the experimentalist, the book will be of interest to graduate students and postgraduates beginning research in this exciting field and researchers wishing to learn the new techniques. |
Contents
Mainly Diffraction | 5 |
Neutron scattering from a fractal | 28 |
2 | 35 |
Copyright | |
41 other sections not shown
Common terms and phrases
analysis angular approximation atoms Bragg Bragg peak calculated component correlation function cross section Crystallogr Debye-Waller factor defined density detector determined diffractometer direct geometry distribution elastic scattering electron energy transfer equation excitations experiment experimental Figure flight path flux Fourier transform geometry incident beam inelastic inhomogeneities instruments integral intensity interaction ISIS isotropic lattice magnetic field magnetisation matrix element maximum entropy measured method molecular molecule momentum transfer neutron beam Neutron Division neutron energy neutron scattering neutron source normalised nuclei nucleosome oscillator parameters peak phase phonon Phys plane polarised powder diffraction problem pulsed source range reactor reciprocal space refinement reflection resolution result Rietveld Rutherford Appleton Laboratory sample scan scattered neutrons scattering angle scattering length single crystal solid solution spectra spectrometer spectrum spin waves structure factor surface techniques temperature term time-of-flight triple axis wave function wave vector wavelength X-ray zero