X-ray Reflectometry (XRR)

X-ray Reflectometry (XRR) is a non-contact, non-destructive X-ray characterization technique suitable for both amorphous and crystalline materials. It provides refined film thicknesses, densities, and interfacial roughness determinations for film stacks whose approximate chemistries and thicknesses are known.

Strengths

• Highly sensitive to electron density perpendicular to surface: optimized for thin films
• Works well on crystalline, amorphous, or combination film stacks
• Nondestructive analysis

Limitations

• Elemental composition of materials should be determined in advance
• Advanced modeling often required to extract critical insights
• Lateral inhomogeneities cannot be incorporated into XRR models

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Example Outputs Instruments Used How XRR Works

• Works best on very smooth, uniform, flat samples (roughness < 2 nm)
• Film thickness < 5000 nm

In X-ray reflectometry (XRR analysis) an X-Ray source supplies a high-brilliance beam of X-rays which reflect off of a flat surface at very low incident angles.

The XRR system then measures the intensity of the X-rays reflected in the specular direction (where reflected angle equal to incident angle). If the interface between layers – or between a layer and the substrate – is not perfectly sharp and smooth, the reflected intensity will deviate from that predicted by the law of Fresnel reflectivity.

The deviations of the X-ray reflectometry can then be analyzed to obtain the density profile of the interface normal to the surface and modeling can be used to determine layer thicknesses, densities, and interfacial roughnesses.