Difference between revisions of "Lattices"

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(Created page with "In x-ray scattering, we frequently study materials which have constituents arranged on a well-defined '''lattice'''. For instance, an atomic crystal has atoms which occupy wel...")
 
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Every lattice has a particular symmetry, which defines the [[reciprocal-space]] peaks which will appear.
 
Every lattice has a particular symmetry, which defines the [[reciprocal-space]] peaks which will appear.
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==Notation==
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* '''Real space''':
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** Crystal ''planes'':
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*** (hkl) denotes a plane of the crystal structure (and repetitions of that plane, with the given spacing). In cubic systems (but not others), the normal to the plane is [hkl]
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*** {hkl} denotes the set of all planes that are equivalent to (hkl) by the symmetry of the lattice
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** Crystal ''directions'':
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*** [hkl] denotes a direction of a vector (in the basis of the direct lattice vectors)
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*** <math>\left\langle hkl\right\rangle</math> denotes the set of all directions that are equivalent to [hkl] by symmetry (e.g. in cubic system <100> means [100, [010], [001], [-100], [0-10], [00-1])
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** hkl denotes a diffracting plane
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* '''[[Reciprocal space]]''':
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** Reciprocal ''planes'':
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*** [hkl] denotes a plane
 +
*** <math>\left\langle hkl\right\rangle</math> denotes the set of all planes that are equivalent to [hkl]
 +
** Reciprocal ''directions'':
 +
*** (hkl) denotes a particular direction (normal to plane (hkl) in real space)
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*** {hkl} denotes the set of all directions that are equivalent to (hkl)
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** hkl denotes an indexed reflection
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==See Also==
 
==See Also==
 
* [http://en.wikipedia.org/wiki/Crystal_structure Wikipedia: Crystal Structure]
 
* [http://en.wikipedia.org/wiki/Crystal_structure Wikipedia: Crystal Structure]

Revision as of 19:15, 3 June 2014

In x-ray scattering, we frequently study materials which have constituents arranged on a well-defined lattice. For instance, an atomic crystal has atoms which occupy well-defined sites within a representative unit cell, which then repeats in all three directions throughout space. Nanoparticle superlattices are a nanoscale analogue, where each lattice site is occupied by a nanoparticle. Other kinds of nanostructures systems can be considered similarly. Block-copolymers mesophases can be thought of as nanostructures sitting on lattice sites (e.g. cylinders in a hexagonal lattice).

Every lattice has a particular symmetry, which defines the reciprocal-space peaks which will appear.

Notation

  • Real space:
    • Crystal planes:
      • (hkl) denotes a plane of the crystal structure (and repetitions of that plane, with the given spacing). In cubic systems (but not others), the normal to the plane is [hkl]
      • {hkl} denotes the set of all planes that are equivalent to (hkl) by the symmetry of the lattice
    • Crystal directions:
      • [hkl] denotes a direction of a vector (in the basis of the direct lattice vectors)
      • denotes the set of all directions that are equivalent to [hkl] by symmetry (e.g. in cubic system <100> means [100, [010], [001], [-100], [0-10], [00-1])
    • hkl denotes a diffracting plane


  • Reciprocal space:
    • Reciprocal planes:
      • [hkl] denotes a plane
      • denotes the set of all planes that are equivalent to [hkl]
    • Reciprocal directions:
      • (hkl) denotes a particular direction (normal to plane (hkl) in real space)
      • {hkl} denotes the set of all directions that are equivalent to (hkl)
    • hkl denotes an indexed reflection


See Also