Difference between revisions of "Acceptance domain"

From Online Dictionary of Crystallography

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[[Acceptance domain]]
Synonyms: window, atomic domain
Synonyms: window, atomic domain

Revision as of 15:23, 30 June 2010

Synonyms: window, atomic domain

Domaine d'acceptation, fenêtre (Fr.)


When an aperiodic crystalline point set is obtained by the intersection method, as the intersection of a periodic array of finite, disjoint components in superspace and the physical space, then there is, for each point , a component in the higher-dimensional unit cell. These components are called acceptance domains, atomic surfaces, atomic domains, or windows in the literature. The positions of atoms in aperiodic crystals (or vertices in the case of a tiling) are the intersection of the atomic surfaces with the physical space. This construction of the points is called the intersection method.


The term window comes from an alternative construction. One considers a 'tube' in n-dimensional superspace that is the product of the m-dimensional physical space V and a transversal finite (n-m)-dimensional object O: [math]V\otimes O[/math]. Then the points of the n-dimensional lattice, corresponding to the periodic embedding of the structure in V, that lie inside the tube are projected on V (See Fig. ). These are the points of the aperiodic structure in V. The construction is called the cut-and-project method. The object O is the window, or acceptance domain. The latter expresses the fact that only lattice points inside the tube are projected. The result is the same as attaching a copy of O to each lattice point, and considering the intersection of this periodic array with V. Actually, the latter construction is more special, in the sense that the atomic surfaces in this are by definition flat, whereas the intersection method allows arbitrarily shaped ones.


Figure caption: The grey strip in superspace is the product of the (infinite) physical space (in this case the horizontal line) and a vertical finite line interval, the acceptance domain. The centres of the vertical lines form a lattice. When a lattice point falls inside the strip it is projected on the physical space. The projected points form an aperiodic crystal. These projected points are also the intersections of the array of vertical lines with the physical space.

See also

atomic surface