||This model describes the scattering of a magnetic counter-clockwise rotating vortex.
|Superball Model - Neither Sphere nor Cube
||This form factor model describes the superball geometry. The superball allows to quantify the sharpness of corners and edges of cuboidal nanoparticles. The superball form factor allows to differentiate between effects arising due to particle size ...
|Field-dependent magnetic SANS of misaligned magnetic moments in bulk ferromagnets
||For bulk ferromagnets, this model allows to analyze the field-dependent purely magnetic SANS. The misalignment scattering is obtained by subtracting the reference scattering at a high (saturating) magnetic field from the scattering at lower applie...
|SANS of bulk ferromagnets
||This model is a micromagnetic approach to analyse the SANS that arises from nanoscale variations in the magnitude and orientation of the magnetization in bulk ferromagnets in the approach to magnetic saturation (single domain state).
|Superparamagnetic Core-Shell Spheres with 3D field orientation
||This model describes the SANS of individual (dilute), superparamagnetic particles for which the alignment of the particle moments along the magnetic field. The magnetic field can be set in an arbitary direction in space.
|Superparamagnetic Core-Shell Spheres
||This model describes the SANS of individual (dilute), superparamagnetic particles for which the alignment of the particle moments along the magnetic field is disturbed by thermal fluctuations. The magnetic field is assumed horizontal and perpendic...
|Magnetically oriented, rotating and precessing anisometric particle (MORP)
||The model will describe the magnetic response of anisometric iron oxide (haematite) nanoparticles based the paper [D. Zakutna et al., Nanoscale 11, 7149 (2019)]. Hematite nanospindles are magnetized perpendicular to their long axis and thus align ...