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Difference between revisions of "Phase problem"

From Online Dictionary of Crystallography

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== Definition ==
 
== Definition ==
  
Waves diffracted from a primitive lattice of simple scatterers obey [[Bragg's law]], which allows ready determination of interplanar distances and thus the easy recovery of a description of the crystal lattice. Where the scattering objects are complex (''e.g.'' in molecular crystals) the diffracted radiation suffers a phase shift arising from the spatial distribution of individual scatterers. The amplitudes of the resulting [[structure factor]]s are directly derivable from the experimental measured intensities of the diffracted beams, but the phases are not. Without a knowledge of the phases, it is not possible to reconstruct the individual atomic positions. Estimating the phases is an essential step in successful [[structure determination]].
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Waves diffracted by a periodic distribution of simple scatterers obey [[Bragg's law]], which allows ready determination of [[interplanar spacing|interplanar distances]] and thus the easy recovery of a description of the crystal structure. Where the scattering objects are complex (''e''.''g.'' in molecular crystals) the diffracted radiation suffers a phase shift arising from the spatial distribution of individual scatterers. The amplitudes of the resulting [[structure factor]]s are directly derivable from the experimental measured intensities of the diffracted beams, but the phases are not. Without a knowledge of the phases, it is not possible to reconstruct the individual atomic positions. Estimating the phases is an essential step in successful [[structure determination]].
  
 
== Methods of solution ==
 
== Methods of solution ==

Revision as of 13:56, 12 October 2017

Problème des phases (Fr). Problema della fase (It). 位相問題 (Ja).

Definition

Waves diffracted by a periodic distribution of simple scatterers obey Bragg's law, which allows ready determination of interplanar distances and thus the easy recovery of a description of the crystal structure. Where the scattering objects are complex (e.g. in molecular crystals) the diffracted radiation suffers a phase shift arising from the spatial distribution of individual scatterers. The amplitudes of the resulting structure factors are directly derivable from the experimental measured intensities of the diffracted beams, but the phases are not. Without a knowledge of the phases, it is not possible to reconstruct the individual atomic positions. Estimating the phases is an essential step in successful structure determination.

Methods of solution

A number of techniques exist to determine the phases associated with the structure factors. In general, they provide estimates of a set of phases, which are used to calculate a set of structure factors that may be compared with experimental observations. Among the techniques currently employed are: