Difference between revisions of "Refraction distortion"

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==Mathematics==
 
==Mathematics==
 
The GISAXS refraction distortion shifts the data along <math>\scriptstyle q_z</math>, leaving <math>\scriptstyle q_x</math> unaffected. The amount of the shift is given by:
 
The GISAXS refraction distortion shifts the data along <math>\scriptstyle q_z</math>, leaving <math>\scriptstyle q_x</math> unaffected. The amount of the shift is given by:
 +
:<math>
 +
\begin{alignat}{2}
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\Delta q_z & = q_z - q_z^{\prime} \\
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    q'_z & = k_0\left(\sqrt{\sin\alpha_i^2 - \sin\alpha_{ct}^2} + \sqrt{\sin\alpha_f^2 - \sin\alpha_{ct}^2}\right) \\
 +
        & = k_0\left(\sqrt{\sin\alpha_i^2 - \sin\alpha_{ct}^2} + \sqrt{\left(\frac{q_z}{k_0} - \sin\alpha_i\right)^2 - \sin\alpha_{ct}^2}\right)
  
[[Image:Lu GTSAXS-Figure5.png|center|thumb|300px|Figure from Lu. et al. ([http://dx.doi.org/10.1107/S0021889812047887 doi: 10.1107/S0021889812047887 ''J. of Appl. Cryst.'' '''2013''', 46, 165]) showing the amount of distortion along ''q<sub>z</sub>'', for different conditions.]]
+
\end{alignat}
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</math>
 +
Where <math>\scriptstyle \alpha_i</math> is the incident angle, and <math>\scriptstyle \alpha_{ct}</math> is the [[critical angle]] of the film.
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 +
[[Image:Lu GTSAXS-Figure5.png|center|thumb|450px|Figure from Lu. et al. ([http://dx.doi.org/10.1107/S0021889812047887 doi: 10.1107/S0021889812047887 ''J. of Appl. Cryst.'' '''2013''', 46, 165]) showing the amount of distortion along ''q<sub>z</sub>'', for different conditions.]]
  
 
==Refraction Correction==
 
==Refraction Correction==

Revision as of 13:24, 4 November 2015

Illustration of GISAXS refraction distortion. The reciprocal-space scattering is a hexagonal array of peaks. However, these peaks are both shifted, and compressed/stretched along qz, due to refraction. This effect is especially pronounced near the Yoneda (orange line).

In GISAXS, GIWAXS, and other grazing-incidence techniques, the refractive index difference between the film and the ambient causes the incident and scattered x-ray beams to be refracted. This extent of refraction depends on the incident and exit angles. Thus, the data that appears on an area detector in a grazing-incidence experiment is non-linearly distorted. This makes data interpretation more problematic.

Mathematics

The GISAXS refraction distortion shifts the data along , leaving unaffected. The amount of the shift is given by:

Where is the incident angle, and is the critical angle of the film.

Figure from Lu. et al. (doi: 10.1107/S0021889812047887 J. of Appl. Cryst. 2013, 46, 165) showing the amount of distortion along qz, for different conditions.

Refraction Correction

When computing theoretical scattering patterns, one must account for the refraction correction.

See Also