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Algorithms for determining the phase of RHEED oscillations
Author(s) -
Mitura Zbigniew,
Dudarev Sergei L.
Publication year - 2015
Publication title -
journal of applied crystallography
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.429
H-Index - 162
ISSN - 1600-5767
DOI - 10.1107/s1600576715020415
Subject(s) - reflection high energy electron diffraction , oscillation (cell signaling) , electron diffraction , diffraction , phase (matter) , optics , harmonic , reflection (computer programming) , physics , harmonics , computational physics , symmetry (geometry) , phase problem , chemistry , quantum mechanics , mathematics , computer science , biochemistry , voltage , programming language , geometry
Oscillations of reflection high‐energy electron diffraction (RHEED) intensities are computed using dynamical diffraction theory. The phase of the oscillations is determined using two different approaches. In the first, direct, approach, the phase is determined by identifying the time needed to reach the second oscillation minimum. In the second approach, the phase is found using harmonic analysis. The two approaches are tested by applying them to oscillations simulated using dynamical diffraction theory. The phase of RHEED oscillations observed experimentally is also analysed. Experimental data on the variation of the phase as a function of the glancing angle of incidence, derived using the direct method, are compared with the values computed using both the direct and harmonic methods. For incident‐beam azimuths corresponding to low‐symmetry directions, both approaches produce similar results.