Grazing Incidence of Diffraction (GID)

The Grazing Incidence of Diffraction (GID) method allows the phase composition of a fabricated material to be probed with depth from a surface of reference.

Irradiation of a sample, with an incident beam which is parallel and at a very low angle to the surface creates diffraction from the crystallites concentrated towards the surface.  The depth of x-ray penetration is correlated to the incident angle toward the surface; typical depth data can range from ~20 nanometres to approximately 10 microns.  In preparation, the surface of a material must be polished flat to ensure meaningful results.

Typical Applications

• Changes in crystal forms deposited on top of a substrate, i.e. TiO₂ forms (rutile or anatase) deposited on top of a substrate
• Crystallite size of gold sputtered layers on a substrate
• Oxidation layers at the surface of metallic materials, i.e. MoOx towards the surface of molybdenum metal
• Crystalline oxidised phases towards the surface interface of metal substrates
• Materials where it is suspected that there is a dichotomy between the bulk and the surface
• Layers deposited on a substrate.

Typical Industries using XRD

• Aerospace
• Automotive
• Materials
• Glass, Ceramics and Refractories
• Healthcare
• Medical Devices
• Semiconductors
• Electronics.