guinier

Parameter

Description

Units

Default value

scale

Scale factor or Volume fraction

None

1

background

Source background

cm-1

0.001

rg

Radius of Gyration

60

The returned value is scaled to units of cm-1 sr-1, absolute scale.

Definition

This model fits the Guinier function

\[I(q) = \text{scale} \cdot \exp{\left[ \frac{-Q^2 R_g^2 }{3} \right]} + \text{background}\]

to the data directly without any need for linearization (cf. the usual plot of \(\ln I(q)\) vs \(q^2\)). Note that you may have to restrict the data range to include small q only, where the Guinier approximation actually applies. See also the guinier_porod model.

For 2D data the scattering intensity is calculated in the same way as 1D, where the \(q\) vector is defined as

\[q = \sqrt{q_x^2 + q_y^2}\]

In scattering, the radius of gyration \(R_g\) quantifies the object’s distribution of SLD (not mass density, as in mechanics) from the object’s SLD centre of mass. It is defined by

\[R_g^2 = \frac{\sum_i\rho_i\left(r_i-r_0\right)^2}{\sum_i\rho_i}\]

where \(r_0\) denotes the object’s SLD centre of mass and \(\rho_i\) is the SLD at a point \(i\).

Notice that \(R_g^2\) may be negative (since SLD can be negative), which happens when a form factor \(P(Q)\) is increasing with \(Q\) rather than decreasing. This can occur for core/shell particles, hollow particles, or for composite particles with domains of different SLDs in a solvent with an SLD close to the average match point. (Alternatively, this might be regarded as there being an internal inter-domain “structure factor” within a single particle which gives rise to a peak in the scattering).

To specify a negative value of \(R_g^2\) in SasView, simply give \(R_g\) a negative value (\(R_g^2\) will be evaluated as \(R_g |R_g|\)). Note that the physical radius of gyration, of the exterior of the particle, will still be large and positive. It is only the apparent size from the small \(Q\) data that will give a small or negative value of \(R_g^2\).

../../_images/guinier_autogenfig.png

Fig. 107 1D plot corresponding to the default parameters of the model.

Source

guinier.py

References

  1. A Guinier and G Fournet, Small-Angle Scattering of X-Rays, John Wiley & Sons, New York (1955)

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