Difference between revisions of "Geometry:TSAXS 3D"

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(Created page with "===TSAXS 3D=== The ''q''-vector in fact has three components: :<math> \mathbf{q} = \begin{bmatrix} q_x & q_y & q_z \end{bmatrix} </math> Consider that the x-ray beam p...")
 
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===[[TSAXS]] 3D===
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In transmission-SAXS ([[TSAXS]]), the x-ray beam hits the sample at normal incidence, and passes directly through without [[refraction]]. TSAXS is normally considered in terms of the one-dimensional [[momentum transfer]] (''q''); however the full 3D form of the ''q''-vector is necessary when considering [[scattering]] from anisotropic materials. The ''q''-vector in fact has three components:
The ''q''-vector in fact has three components:
 
 
:<math>
 
:<math>
 
\mathbf{q} = \begin{bmatrix} q_x & q_y & q_z \end{bmatrix}
 
\mathbf{q} = \begin{bmatrix} q_x & q_y & q_z \end{bmatrix}
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</math>
 
</math>
 
where <math>\scriptstyle d</math> is the sample-detector distance, <math>\scriptstyle \alpha_f ^{\prime} </math> is the out-of-plane component (angle w.r.t. to ''y''-axis, rotation about x-axis), and <math>\scriptstyle \theta_f </math> is the in-plane component (rotation about ''z''-axis). The alternate angle, <math>\scriptstyle \alpha_f </math>, is the elevation angle in the plane defined by <math>\scriptstyle \theta_f </math>.
 
where <math>\scriptstyle d</math> is the sample-detector distance, <math>\scriptstyle \alpha_f ^{\prime} </math> is the out-of-plane component (angle w.r.t. to ''y''-axis, rotation about x-axis), and <math>\scriptstyle \theta_f </math> is the in-plane component (rotation about ''z''-axis). The alternate angle, <math>\scriptstyle \alpha_f </math>, is the elevation angle in the plane defined by <math>\scriptstyle \theta_f </math>.
====Total scattering===
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==Total scattering==
 
The full scattering angle is:
 
The full scattering angle is:
 
:<math>
 
:<math>
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Where we take for granted that ''q'' must be positive.
 
Where we take for granted that ''q'' must be positive.
  
====In-plane only====
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==In-plane only==
 
If <math>\scriptstyle \alpha_f = 0 </math> (and <math>\scriptstyle \alpha_f ^{\prime} = 0</math>), then <math>\scriptstyle q_z = 0 </math>, <math>\scriptstyle 2 \theta_s = \theta_f </math>, and:
 
If <math>\scriptstyle \alpha_f = 0 </math> (and <math>\scriptstyle \alpha_f ^{\prime} = 0</math>), then <math>\scriptstyle q_z = 0 </math>, <math>\scriptstyle 2 \theta_s = \theta_f </math>, and:
 
:<math>
 
:<math>
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</math>
 
</math>
  
====Components====
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==Components==
 
The [[momentum transfer]] components are:
 
The [[momentum transfer]] components are:
 
:<math>
 
:<math>
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</math>
 
</math>
  
====Check====
+
===Check===
 
As a check of these results, consider:
 
As a check of these results, consider:
 
:<math>
 
:<math>

Revision as of 10:34, 30 December 2015

In transmission-SAXS (TSAXS), the x-ray beam hits the sample at normal incidence, and passes directly through without refraction. TSAXS is normally considered in terms of the one-dimensional momentum transfer (q); however the full 3D form of the q-vector is necessary when considering scattering from anisotropic materials. The q-vector in fact has three components:

Consider that the x-ray beam points along +y, so that on the detector, the horizontal is x, and the vertical is z. We assume that the x-ray beam hits the flat 2D area detector at 90° at detector (pixel) position . The scattering angles are then:

where is the sample-detector distance, is the out-of-plane component (angle w.r.t. to y-axis, rotation about x-axis), and is the in-plane component (rotation about z-axis). The alternate angle, , is the elevation angle in the plane defined by .

Total scattering

The full scattering angle is:

The total momentum transfer is:

Given that:

We can also write:

Where we take for granted that q must be positive.

In-plane only

If (and ), then , , and:

Components

The momentum transfer components are:

Check

As a check of these results, consider:

Where we used:

And, we further note that:

cont

Continuing: