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Physical Review B - Condensed Matter and Materials Physics
Volumn 85, Issue 18, 2012, Pages
X-ray cross-correlation analysis applied to disordered two-dimensional systems
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Indexed keywords

EID: 84861163926     PISSN: 10980121     EISSN: 1550235X     Source Type: Journal    
DOI: 10.1103/PhysRevB.85.184204     Document Type: Article
Times cited : (55)
References (40)
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    • q2(Δ) is used. In this case the influence of the form factors of the individual scatterers on the form of CCFs is not excluded by normalization
    • 2 (Δ) is used. In this case the influence of the form factors of the individual scatterers on the form of CCFs is not excluded by normalization.
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    • Note that in Eq. we combined the complex-valued terms 2 and 3 from Ref. 20 into one real-valued term
    • Note that in Eq. we combined the complex-valued terms 2 and 3 from Ref. 20 into one real-valued term.
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    • All simulations of diffraction patterns were performed using the computer code moltrans
    • All simulations of diffraction patterns were performed using the computer code moltrans.
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    • Sufficient resolution of the detector is important for a reliable determination of all contributions to the CCF defined by Eqs. and
    • Sufficient resolution of the detector is important for a reliable determination of all contributions to the CCF defined by Eqs. and.
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    • For the given sample area (10×10μm2) and cluster size (d=600nm) one can simulate a close-packed system composed of more than 200 clusters. However, such a high density of clusters is not convenient for modeling of a disordered system since it may induce some positional ordering in the system. To achieve better positional disorder and at the same time to keep a relatively high density of clusters we consider here the systems composed of 121 clusters
    • For the given sample area (10 × 10 μ m 2) and cluster size (d = 600 nm) one can simulate a close-packed system composed of more than 200 clusters. However, such a high density of clusters is not convenient for modeling of a disordered system since it may induce some positional ordering in the system. To achieve better positional disorder and at the same time to keep a relatively high density of clusters we consider here the systems composed of 121 clusters.
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    • Due to normalization the scattering factors cancel out in the expression for Cq(int-clust)n in Eq. for identical particles forming clusters
    • Due to normalization the scattering factors cancel out in the expression for C q (int - clust) n in Eq. for identical particles forming clusters.

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