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2. Wave Diffraction and Reciprocal Lattice Diffraction of Waves by Crystals Scattered Wave Amplitude Brillouin Zones Fourier Analysis of the Basis Quasicrystals.

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Presentation on theme: "2. Wave Diffraction and Reciprocal Lattice Diffraction of Waves by Crystals Scattered Wave Amplitude Brillouin Zones Fourier Analysis of the Basis Quasicrystals."— Presentation transcript:

1 2. Wave Diffraction and Reciprocal Lattice Diffraction of Waves by Crystals Scattered Wave Amplitude Brillouin Zones Fourier Analysis of the Basis Quasicrystals

2 Diffraction Of Waves By Crystals Bragg’s Law Reflectance of each plane is about 10  3 to 10  5.

3 Monochromator X-ray Diffractometer on Powdered Si 1.16A neutron beam on CaF 2 Relative intensities are due to basis.

4 Scattered Wave Amplitude Fourier Analysis → where  T m i integers b i is called the primitive vectors of the reciprocal lattice, and G a reciprocal lattice vector. Definethen i,j,k cyclic →

5 Diffraction Conditions Difference in phases between waves scattered at r and O  Scattering amplitude  Scattering vector

6 Diffraction condition:  (G   G)  From Problem 1: where  Diffraction condition can be written as Bragg’s law

7 Laue Equations Diffraction condition: →   k lies in the intersection of 3 cones about the crystal axes. Ewald construction White dots are reciprocal lattice points. Incident k drawn with end at lattice point. Scattered k obtained by drawing a circle.

8 Brillouin Zones Brillouin Zone  Wigner-Seitz cell of reciprocal lattice. Diffraction condition→ → k is on boundary of BZ. Square lattice

9 Reciprocal Lattice to SC Lattice Primitive lattice vectors: Primitive cell volume: Primitive reciprocal lattice vectors: Reciprocal lattice is also SC.

10 Reciprocal Lattice to BCC Lattice Primitive lattice vectors: Primitive cell volume: Primitive reciprocal lattice vectors: Reciprocal lattice is FCC. Reciprocal lattice vector: bcc 1 st BZ rhombic dodecahedron Cartesian coord

11 Reciprocal Lattice to FCC Lattice Primitive lattice vectors: Primitive cell volume: Primitive reciprocal lattice vectors: Reciprocal lattice is BCC. Reciprocal lattice vector: fcc 1 st BZ Cartesian coord

12 Fourier Analysis of the Basis Scattering amplitude Structure factor For a basis with s atoms  atomic form factor

13 Structure Factor of BCC Lattice With respect to the SC lattice, the BCC has a basis of 2 atoms at and → E.g., metallic Na: no (100), (300), (111), or (221) lines (cancelled by extra plane at half separation)

14 Structure Factor of FCC Lattice With respect to the SC lattice, the FCC has a basis of 4 atoms at →

15 Atomic Form Factor For a spherical distribution of electron density For For forward scattering, G  0, so that f  Z. For X-ray diffraction, f  Z. ( X-ray not sensitive to change in n(r) caused by bonding)

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