Open AccessCoherence approach in neutron, x-ray, and neutron spin-echo reflectometry
Author(s) -
V.O. de Haan,
Jeroen Plomp,
M. Theo Rekveldt,
A.A. van Well,
Robert M. Dalgliesh,
S. Langridge,
A. Böttger,
Ruud Hendrikx
Publication year - 2010
Publication title -
physical review b
Language(s) - English
Resource type - Journals
eISSN - 1538-4489
pISSN - 1098-0121
DOI - 10.1103/physrevb.81.094112
Subject(s) - neutron reflectometry , neutron spin echo , reflectometry , neutron , coherence (philosophical gambling strategy) , spin echo , physics , echo (communications protocol) , neutron scattering , optics , nuclear magnetic resonance , materials science , nuclear physics , small angle neutron scattering , computer science , quantum mechanics , magnetic resonance imaging , time domain , medicine , computer network , computer vision , radiology
Based on the application of coherence theory to neutron scattering a description is given of the propagation of neutrons or x-rays through a reflectometer. Important coherence effects at the sample position are discussed. Further, an outline is given how to determine the measured count rate in a detector on the basis of this method including neutron-polarization effects. It is shown in what way the Born approximation and distorted-wave Born approximation can be used within this theory. An outline is given of the phase-object approximation, describing the specular and diffuse scattering from a surface with large surface structure, extending over the existing capabilities of the distorted-wave Born approximation. The incorporation of neutron-polarization effects enables the detailed discussion of neutron spin-echo coding techniques applied to reflectometry.
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