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sasview/src/sas/sasgui/perspectives/fitting/media/mag_help.rst
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Polarisation/Magnetic Scattering
Magnetic scattering is implemented in five (2D) models
- sphere
- core_shell_sphere
- core_multi_shell
- cylinder
- parallelepiped
In general, the scattering length density (SLD, = $beta$) in each region where the SLD is uniform, is a combination of the nuclear and magnetic SLDs and, for polarised neutrons, also depends on the spin states of the neutrons.
For magnetic scattering, only the magnetization component, $M_perp$, perpendicular to the scattering vector $Q$ contributes to the the magnetic scattering length.
The magnetic scattering length density is then
where $gamma = -1.913$ is the gyromagnetic ratio, $mu_B$ is the Bohr magneton, $r_0$ is the classical radius of electron, and $sigma$ is the Pauli spin.
Assuming that incident neutrons are polarized parallel (+) and anti-parallel (-) to the x' axis, the possible spin states after the sample are then
No spin-flips (+ +) and (- -)
Spin-flips (+ -) and (- +)
If the angles of the $Q$ vector and the spin-axis (x') to the x-axis are $phi$ and $theta_text{up}$, respectively, then, depending on the spin state of the neutrons, the scattering length densities, including the nuclear scattering length density ($beta_N$) are
when there are no spin-flips, and
when there are, and
Here, $M_{0x}$, $M_{0y}$ and $M_{0z}$ are the $x$, $y$ and $z$ components of the magnetization vector given in the laboratory $xyz$ frame given by
and the magnetization angles $theta_M$ and $phi_M$ are defined in the figure above.
The user input parameters are:
M0_sld | = $D_M M_0$ |
Up_theta | = $theta_text{up}$ |
M_theta | = $theta_M$ |
M_phi | = $phi_M$ |
Up_frac_i | = (spin up)/(spin up + spin down) neutrons before the sample |
Up_frac_f | = (spin up)/(spin up + spin down) neutrons after the sample |
Note: The values of the 'Up_frac_i' and 'Up_frac_f' must be in the range 0 to 1.
Note
This help document was last changed by Steve King, 02May2015