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Miller indices

From Online Dictionary of Crystallography

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(French: Indices de Miller). Spanish: Indices de Miller.)

Definition

Direct space

Planes of a given family of lattice planes with Miller indices h, k, l make intercepts OP = C a/h, OQ = C b/k, and OR = C c/l with the unit-cell axes OA = a, OB = b, and OC = c (see Figure 1), where h, k, l are prime integers and C is a constant integer; the planes of the family are denoted (hkl). This property results from the law of rational indices. The variation of the orientation of the planes with the ratios of the Miller indices is illustrated in the attached examples. The equation of the planes of the family is:

hx + ky + lz = C

Reciprocal space

The reciprocal lattice vector associated to the family of lattice planes is OH = h a* + k b* + l c*, where a*, b*, c* are the reciprocal lattice basis vectors. OH is perpendicular to the family of lattice planes and OH = 1/d where d is the lattice spacing of the family.

Bravais-Miller indices (hexagonal axes)

In the case of hexagonal crystals, one uses four axes, a1, a2, a3, c and four indices, (hkil), where h, k, i, l are again inversely proportional to intercepts of a plane of the family with the four axes. The indices h, k, i are cyclically permutable and are related by

h + k + i = 0

Behaviour in a change of basis

In a change of basis the Miller indices h, k, l transform like the basis vectors a, b, c and are for that reason covariant quantities.

Rhombohedral crystals

The Miller indices hR, kR, lR with respect to rhombohedral axes are related to the corresponding indices, hH, kH, iH,lH with respect to hexagonal axes by:

hH = kR - lR  ; hR = ⅓(- kH + iH + lH)
kH = lR - hR  ; kR = ⅓(hH - iH + lH)
iH = hR - kR  ; lR = ⅓(- hH + kH + lH)
lH = hR + kR + lR

History

The Miller indices were first introduced, among others, by W. Whevell in 1829 and developed by W.H. Miller, his successor at the Chair of Mineralogy at Cambridge University, in his book A treatise on Crystallogtaphy (1839).


See also

law of rational indices
reciprocal lattice