Simulations and concepts for a 2-D spin-echo modulated SANS (SEMSANS) instrument
S.R. Parnell (TU Delft - RID/TS/Instrumenten groep)
Sergi Van Den Berg (Student TU Delft)
G. Bolderink (TU Delft - ImPhys/Microscopy Instrumentation & Techniques)
W.G. Bouwman (TU Delft - RST/Neutron and Positron Methods in Materials)
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Abstract
The spin-echo small-angle neutron scattering (SESANS) technique utilises a series of inclined magnetic fields before and after the sample to encode the scattering angle into the polarisation to obtain a much higher resolution than in conventional SANS. The analogous technique (spin echo modulated SANS (SEMSANS)) implements spin manipulations before the sample only to encode the scattering into an intensity modulation. The technique can be combined with SANS to expand the length scale range probed from 1 nm to microns. Using McStas we show that using a series of four magnetic Wollaston prisms in two orthogonal pairs with a 90° rotation can be utilised to create SEMSANS modulations in 2-D. These modulations can also be of different periods in each encoding direction. This method can be applied to anisotropic scattering samples. Also this allows for the simultaneous measurement at two orthogonal independent spin-echo lengths. This technique yields directly information about the structure of oriented structures.
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