Difference between revisions of "Lattice:HCP"

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(Particle Positions (Cartesian coordinates))
(Reciprocal-space Peaks)
 
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===[[Reciprocal-space]] Peaks===
 
===[[Reciprocal-space]] Peaks===
 
* Allowed reflections:
 
* Allowed reflections:
* <math>l</math> even
+
** <math>l</math> even
* <math>h+2k \neq 3 n</math>
+
** <math>h+2k \neq 3 n</math>
 
* Peak positions:
 
* Peak positions:
 
*: <math>q_{hkl}=2\pi\left( \frac{(h^2 + hk + k^2)^2}{a^2} + \frac{l^2}{c^2} \right)^{1/2}</math>
 
*: <math>q_{hkl}=2\pi\left( \frac{(h^2 + hk + k^2)^2}{a^2} + \frac{l^2}{c^2} \right)^{1/2}</math>

Latest revision as of 17:31, 10 November 2014

HCP (Hexagonal close-packed) is a hexagonal lattice. It is notable (along with FCC) because it achieves the densest possible packing of spheres. It thus arises naturally in many atomic crystals, as well as in colloidal crystals and nanoparticles superlattices.

Canonical HCP

In the canonical HCP, the ratio between the a and c distances is:

Symmetry

  • Crystal Family: Hexagonal
  • Particles per unit cell:
    • 'inner' particles:
    • 'corner' particles:
  • Volume of unit cell:
  • Dimensionality:

Particle Positions (basis vectors)

There are 9 positions, with 2 particles in the unit cell

Particle A: corners

These are the corners of the hexagonal frame. There are 8 corner positions, which contributes a total of 1 particle.

Particle B: inner

Particle Positions (Cartesian coordinates)

Particle A: corners

Particle B: inner

Reciprocal-space Peaks

  • Allowed reflections:
    • even
  • Peak positions:

Examples

Elemental

Many elements pack into HCP. E.g.:

4. Beryllium (Be) (a = b = 2.290 Å, c = 3.588, c/a = 1.567)
27. Cobalt (Co) (a = b = 2.5071 Å, c = 4.0695, c/a = 1.623)
48. Cadmium (Cd) (a =b = 2.9794 Å, c = 5.6186 Å, c/a = 1.886)

Atomic

  • TBD

Nano

See Also