linear_pearls
Linear pearls model of scattering from spherical pearls.
Parameter | Description | Units | Default value |
---|---|---|---|
scale | Source intensity | None | 1 |
background | Source background | cm-1 | 0.001 |
radius | Radius of the pearls | Å | 80 |
edge_sep | Length of the string segment - surface to surface | Å | 350 |
num_pearls | Number of the pearls | None | 3 |
sld | SLD of the pearl spheres | 10-6Å-2 | 1 |
sld_solvent | SLD of the solvent | 10-6Å-2 | 6.3 |
The returned value is scaled to units of cm-1 sr-1, absolute scale.
This model provides the form factor for \(N\) spherical pearls of radius \(R\) linearly joined by short strings (or segment length or edge separation) \(l\) \((= A - 2R)\). \(A\) is the center-to-center pearl separation distance. The thickness of each string is assumed to be negligible.
Definition
The output of the scattering intensity function for the linear_pearls model is given by (Dobrynin, 1996)
where the mass \(m_p\) is \((SLD_{pearl}-SLD_{solvent})*(volume\ of\ N\ pearls)\). V is the total volume.
The 2D scattering intensity is the same as P(q) above, regardless of the orientation of the q vector.
Source
linear_pearls.py
\(\ \star\ \) linear_pearls.c
\(\ \star\ \) lib/sas_3j1x_x.c
References
- A V Dobrynin, M Rubinstein and S P Obukhov, Macromol., 29 (1996) 2974-2979
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