Thermo Scientific™ ARL™ EQUINOX LAUE. Diamond Crystal. This diamond crystal is a piece of cut fashion jewelry (measuring a few cubic millimeters). The dots are well-defined and the orientation is (111). Diamond on Earring. With the help of a video camera, it is feasible to adjust a crystal and then measure it in Laue XRD. Laue diffraction pattern, in X rays, a regular array of spots on a photographic emulsion resulting f. X-Ray Laue Diffraction Laue applied general wave-optical principles with a three-dimensional lattice concept to deduce three equations which must be simultaneously satisfied to explain the fact that X-rays are scattered selectively in certain well-defined directions. From: Encyclopedia of.
The Laue method is mainly used to determine the orientation of large single crystals. White radiation is reflected from, or transmitted through, a fixed crystal.
The diffracted beams form arrays of spots, that lie on curves on the film. The Bragg angle is fixed for every set of planes in the crystal. Each set of planes picks out and diffracts the particular wavelength from the white radiation that satisfies the Bragg law for the values of d and q involved. Each curve therefore corresponds to a different wavelength. The spots lying on any one curve are reflections from planes belonging to one zone. Laue reflections from planes of the same zone all lie on the surface of an imaginary cone whose axis is the zone axis.
There are two practical variants of the Laue method, the back-reflection and the transmission Laue method. You can study these below:
In the back-reflection method, the film is placed between the x-ray source and the crystal. The beams which are diffracted in a backward direction are recorded.
One side of the cone of Laue reflections is defined by the transmitted beam. The film intersects the cone, with the diffraction spots generally lying on an hyperbola.
In the transmission Laue method, the film is placed behind the crystal to record beams which are transmitted through the crystal.
One side of the cone of Laue reflections is defined by the transmitted beam. The film intersects the cone, with the diffraction spots generally lying on an ellipse.
Laue Model Xrd
Crystal orientation is determined from the position of the spots. Each spot can be indexed, i.e. attributed to a particular plane, using special charts. The Greninger chart is used for back-reflection patterns and the Leonhardt chart for transmission patterns.
The Laue technique can also be used to assess crystal perfection from the size and shape of the spots. If the crystal has been bent or twisted in anyway, the spots become distorted and smeared out.