Visualization of bulk magnetic properties by neutron grating interferometry

The neutron Grating Interferometer (nGI) is a standard user instrument at the cold neutron imaging beamline ICON (Kaestner, 2011) at the neutron source SINQ at Paul Scherrer Institute (PSI), Switzerland. The setup is able to deliver simultaneously information about the attenuation, phase shift (DPC)...

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Hauptverfasser:	Betz, Benedikt, Rauscher, Peter, Siebert, René, Schäfer, Rudolf, Kästner, A, Swygenhoven, H. van, Lehmann, E, Grünzweig, C
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Sprache:	eng
Schlagworte:	grating interferometry magnetic structure neutron detection neutron sources particle beam dynamics particle interferometry scattering steel
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creator	Betz, Benedikt Rauscher, Peter Siebert, René Schäfer, Rudolf Kästner, A Swygenhoven, H. van Lehmann, E Grünzweig, C
description	The neutron Grating Interferometer (nGI) is a standard user instrument at the cold neutron imaging beamline ICON (Kaestner, 2011) at the neutron source SINQ at Paul Scherrer Institute (PSI), Switzerland. The setup is able to deliver simultaneously information about the attenuation, phase shift (DPC) (Pfeiffer, 2006) and scattering properties in the so-called dark-field image (DFI) (Grunzweig, 2008-I) of a sample. Since neutrons only interact with the nucleus they are often able to penetrate deeper into matter than X-rays, in particular heavier materials. A further advantage of neutrons compared to X-rays is the interaction of the neutron's magnetic moment with magnetic structures that allows for the bulk investigation of magnetic domain structures using the nGI technique (Grunzweig, 2008-II). The nGI-setup and its technique for imaging with cold neutrons is presented in this contribution. The main focus will be on magnetic investigations of electrical steel laminations using the nGI technique. Both, grain-oriented (GO) and non-oriented (NO) laminations will be presented. GO-laminations are widely used in industrial transformer applications, while NO-sheets are common in electrical machines. For grain-oriented sheet, domain walls were visualized individually, spatially resolved, while in NO-sheet a relative density distribution is depicted.
doi_str_mv	10.1016/j.phpro.2015.07.056
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The setup is able to deliver simultaneously information about the attenuation, phase shift (DPC) (Pfeiffer, 2006) and scattering properties in the so-called dark-field image (DFI) (Grunzweig, 2008-I) of a sample. Since neutrons only interact with the nucleus they are often able to penetrate deeper into matter than X-rays, in particular heavier materials. A further advantage of neutrons compared to X-rays is the interaction of the neutron's magnetic moment with magnetic structures that allows for the bulk investigation of magnetic domain structures using the nGI technique (Grunzweig, 2008-II). The nGI-setup and its technique for imaging with cold neutrons is presented in this contribution. The main focus will be on magnetic investigations of electrical steel laminations using the nGI technique. Both, grain-oriented (GO) and non-oriented (NO) laminations will be presented. 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identifier	DOI: 10.1016/j.phpro.2015.07.056
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subjects	grating interferometry magnetic structure neutron detection neutron sources particle beam dynamics particle interferometry scattering steel
title	Visualization of bulk magnetic properties by neutron grating interferometry
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