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Main Authors: Qvistgaard, Cedric Holme, Kuhn, Luise Theil, Sales, Morten, Shinohara, Takenao, Wulff, Anders C., Brock, Mette Bybjerg, Schmidt, Søren
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.16473
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author Qvistgaard, Cedric Holme
Kuhn, Luise Theil
Sales, Morten
Shinohara, Takenao
Wulff, Anders C.
Brock, Mette Bybjerg
Schmidt, Søren
author_facet Qvistgaard, Cedric Holme
Kuhn, Luise Theil
Sales, Morten
Shinohara, Takenao
Wulff, Anders C.
Brock, Mette Bybjerg
Schmidt, Søren
contents In this paper we showcase the strengths of polarized neutron imaging as a magnetic imaging technique through a case study on field-cooled multifilamentary YBCO tape carrying a transport current while containing a trapped magnetic field. The measurements were done at J-PARC's RADEN beamline, measuring a radiograph of a single polarization component, to showcase the analysis potential with minimal acquisition time. Regions of internal damage are easily and accurately identified as the technique probes the internal magnetic field of the sample, thereby avoiding surface-smearing effects. Quantitative measurements of the integrated field strength in various regions are acquired using time-of-flight information. Finally, we estimate the strength of the screening currents in the superconductor during the experiment by simulating an experiment with a model sample and comparing it to the experimental data. With this, we show that polarized neutron imaging is not only a useful tool for investigating magnetic structures but also for investigating samples carrying currents.
format Preprint
id arxiv_https___arxiv_org_abs_2411_16473
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Minimal Acquisition Time Polarized Neutron Imaging of Current Induced Magnetic Fields in Superconducting Multifilamentary YBCO Tape
Qvistgaard, Cedric Holme
Kuhn, Luise Theil
Sales, Morten
Shinohara, Takenao
Wulff, Anders C.
Brock, Mette Bybjerg
Schmidt, Søren
Materials Science
In this paper we showcase the strengths of polarized neutron imaging as a magnetic imaging technique through a case study on field-cooled multifilamentary YBCO tape carrying a transport current while containing a trapped magnetic field. The measurements were done at J-PARC's RADEN beamline, measuring a radiograph of a single polarization component, to showcase the analysis potential with minimal acquisition time. Regions of internal damage are easily and accurately identified as the technique probes the internal magnetic field of the sample, thereby avoiding surface-smearing effects. Quantitative measurements of the integrated field strength in various regions are acquired using time-of-flight information. Finally, we estimate the strength of the screening currents in the superconductor during the experiment by simulating an experiment with a model sample and comparing it to the experimental data. With this, we show that polarized neutron imaging is not only a useful tool for investigating magnetic structures but also for investigating samples carrying currents.
title Minimal Acquisition Time Polarized Neutron Imaging of Current Induced Magnetic Fields in Superconducting Multifilamentary YBCO Tape
topic Materials Science
url https://arxiv.org/abs/2411.16473