pringle
The Pringle model provides the form factor, \(P(q)\), for a ‘pringle’ or ‘saddle-shaped’ disc that is bent in two directions.
Parameter | Description | Units | Default value |
---|---|---|---|
scale | Source intensity | None | 1 |
background | Source background | cm-1 | 0.001 |
radius | Pringle radius | Å | 60 |
thickness | Thickness of pringle | Å | 10 |
alpha | Curvature parameter alpha | None | 0.001 |
beta | Curvature paramter beta | None | 0.02 |
sld | Pringle sld | 10-6Å-2 | 1 |
sld_solvent | Solvent sld | 10-6Å-2 | 6.3 |
The returned value is scaled to units of cm-1 sr-1, absolute scale.
Definition
The form factor for this bent disc is essentially that of a hyperbolic paraboloid and calculated as
where
and \(\Delta \rho \text{ is } \rho_{pringle}-\rho_{solvent}\), \(V\) is the volume of the disc, \(\psi\) is the angle between the normal to the disc and the q vector, \(d\) and \(R\) are the “pringle” thickness and radius respectively, \(\alpha\) and \(\beta\) are the two curvature parameters, and \(J_n\) is the nth order Bessel function of the first kind.
Source
pringle.py
\(\ \star\ \) pringle.c
\(\ \star\ \) lib/gauss76.c
\(\ \star\ \) lib/sas_JN.c
\(\ \star\ \) lib/sas_J1.c
\(\ \star\ \) lib/sas_J0.c
\(\ \star\ \) lib/polevl.c
Reference
- Karen Edler, Universtiy of Bath, Private Communication. 2012. Derivation by Stefan Alexandru Rautu.
- Onsager, Ann. New York Acad. Sci., 51 (1949) 627-659
Authorship and Verification
- Author: Andrew Jackson Date: 2008
- Last Modified by: Wojciech Wpotrzebowski Date: March 20, 2016
- Last Reviewed by: Andrew Jackson Date: September 26, 2016