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  Oji, U.K.; Pacheco, V.; Sahlberg, M.; Backs, A.; Woracek, R.; Pooley, D.E.; Nilsen, G.J.; Nemkovski, K.; Kockelmann, W.; Tremsin, A.S.; Hilger, A.; Ziesche, R.; Manke, I.; Cubitt, R.; Kardjilov, N.: Implementation of time of flight polarized neutron imaging at IMAT-ISIS. Materials & Design 235 (2023), p. 112429/1-9

10.1016/j.matdes.2023.112429
Open Access Version

Abstract:
In this study, we report the first case of design and implementation of a polarized neutron imaging option on the Imaging and Materials Science & Engineering Station (IMAT). This is a significant addition to the capabilities of the station that allows the characterization of advanced magnetic materials for different engineering applications. Combining its time-of-flight feature with a polarized beam yields data that facilitate both quantitative and qualitative analysis of magnetic materials. Using the simple field of an aluminium solenoid, we perform a characterization of the new setup. In addition, we present polarized measurements of additively manufactured (AM) MnAl samples where the magnetic anisotropy due to the fabrication process has been investigated as a first scientific application of the setup. The results indicate that the anisotropy of the material can be engineered through variation of the AM fabrication parameters.