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Data set for: Real-space Imaging of Confined Magnetic Skyrmion Tubes

Data set for: Real-space Imaging of Confined Magnetic Skyrmion Tubes
Data set for: Real-space Imaging of Confined Magnetic Skyrmion Tubes
This repository contains the scripts and notebooks to reproduce the figures, simulations and numerical data shown in Real-space Imaging of Confined Magnetic Skyrmion Tubes by M. T. Birch, D. Cortés-Ortuño, L. A. Turnbull, M. N. Wilson, F. Groß, N. Träger, A. Laurenson, N. Bukin, S. H. Moody, M. Weigand, G. Schütz, H. Popescu, R. Fan, P. Steadman, J. A. T. Verezhak, G. Balakrishnan, J. C. Loudon, A. C. Twitchett-Harrison, O. Hovorka, H. Fangohr, F. Ogrin, J. Gräfe and P. D. Hatton. Both simulation and experimental data analysis are performed using Python with the Matplotlib, Jupyter, Scipy, Numpy and h5py libraries. Jupyter notebooks are provided to process the experimental data and reproduce the STXM, X-Ray Holography and LTEM images, which are shown as Figures 2, 3, 4 and 5 in the paper. Simulation scripts are based on the finite difference micromagnetic code OOMMF with the extension to simulate DMI for materials with symmetry class T: [oommf-extension-dmi-t](https://github.com/joommf/oommf-extension-dmi-t) The analysis of OOMMF's output files, which are in the `OMF` format, are processed using the [OOMMFPy](https://github.com/davidcortesortuno/oommfpy) library, which can calculate the topological charge in a 2D slice. Three-dimensional visualisations of the magnetic states are performed using Paraview. In order to get VTK files for visualisation, convert the `OMF` files into `.vtk` using the `OOMMFPy` library. Latest version of this Data Set can be found at the Github repository: https://github.com/davidcortesortuno/paper-2020_real-space_imaging_of_confined_magnetic_skyrmion_tubes
Zenodo
Loudon, James
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Twitchett‐Harrison, Alison
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Birch, Max
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Hatton, Peter
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Schütz, Gisela
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Verezhak, Joel
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Hovorka, Ondrej
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Groß, Felix
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Träger, Nick
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Bukin, Nicholas
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Fan, Raymond
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Gräfe, Joachim
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Fangohr, Hans
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Weigand, Markus
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Balakrishnan, Geetha
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Turnbull, Luke
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Laurenson, Angus
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Ogrin, Feodor
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Cortés-Ortuño, David
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Popescu, Horia
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Steadman, Paul
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Moody, Samuel
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Wilson, Murray
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Loudon, James
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Twitchett‐Harrison, Alison
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Birch, Max
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Hatton, Peter
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Schütz, Gisela
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Verezhak, Joel
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Hovorka, Ondrej
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Groß, Felix
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Träger, Nick
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Bukin, Nicholas
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Fan, Raymond
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Gräfe, Joachim
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Fangohr, Hans
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Weigand, Markus
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Balakrishnan, Geetha
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Turnbull, Luke
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Laurenson, Angus
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Ogrin, Feodor
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Cortés-Ortuño, David
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Popescu, Horia
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Steadman, Paul
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Moody, Samuel
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Wilson, Murray
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(2020) Data set for: Real-space Imaging of Confined Magnetic Skyrmion Tubes. Zenodo doi:10.5281/zenodo.3364608. [Dataset]

Record type: Dataset

Abstract

This repository contains the scripts and notebooks to reproduce the figures, simulations and numerical data shown in Real-space Imaging of Confined Magnetic Skyrmion Tubes by M. T. Birch, D. Cortés-Ortuño, L. A. Turnbull, M. N. Wilson, F. Groß, N. Träger, A. Laurenson, N. Bukin, S. H. Moody, M. Weigand, G. Schütz, H. Popescu, R. Fan, P. Steadman, J. A. T. Verezhak, G. Balakrishnan, J. C. Loudon, A. C. Twitchett-Harrison, O. Hovorka, H. Fangohr, F. Ogrin, J. Gräfe and P. D. Hatton. Both simulation and experimental data analysis are performed using Python with the Matplotlib, Jupyter, Scipy, Numpy and h5py libraries. Jupyter notebooks are provided to process the experimental data and reproduce the STXM, X-Ray Holography and LTEM images, which are shown as Figures 2, 3, 4 and 5 in the paper. Simulation scripts are based on the finite difference micromagnetic code OOMMF with the extension to simulate DMI for materials with symmetry class T: [oommf-extension-dmi-t](https://github.com/joommf/oommf-extension-dmi-t) The analysis of OOMMF's output files, which are in the `OMF` format, are processed using the [OOMMFPy](https://github.com/davidcortesortuno/oommfpy) library, which can calculate the topological charge in a 2D slice. Three-dimensional visualisations of the magnetic states are performed using Paraview. In order to get VTK files for visualisation, convert the `OMF` files into `.vtk` using the `OOMMFPy` library. Latest version of this Data Set can be found at the Github repository: https://github.com/davidcortesortuno/paper-2020_real-space_imaging_of_confined_magnetic_skyrmion_tubes

This record has no associated files available for download.

More information

Published date: 21 January 2020
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Identifiers

Local EPrints ID: 474357
URI: http://eprints.soton.ac.uk/id/eprint/474357
DOI: doi:10.5281/zenodo.3364608.
PURE UUID: e36c4234-5b99-4447-8b3f-efbf25e73a0d
ORCID for Ondrej Hovorka: ORCID iD orcid.org/0000-0002-6707-4325
ORCID for Hans Fangohr: ORCID iD orcid.org/0000-0001-5494-7193
ORCID for David Cortés-Ortuño: ORCID iD orcid.org/0000-0003-3799-3141

Catalogue record

Date deposited: 20 Feb 2023 18:12
Last modified: 26 Jul 2023 01:43

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Contributors

Contributor: James Loudon
Contributor: Alison Twitchett‐Harrison
Contributor: Max Birch
Contributor: Peter Hatton
Contributor: Gisela Schütz
Contributor: Joel Verezhak
Contributor: Ondrej Hovorka ORCID iD
Contributor: Felix Groß
Contributor: Nick Träger
Contributor: Nicholas Bukin
Contributor: Raymond Fan
Contributor: Joachim Gräfe
Contributor: Hans Fangohr ORCID iD
Contributor: Markus Weigand
Contributor: Geetha Balakrishnan
Contributor: Luke Turnbull
Contributor: Angus Laurenson
Contributor: Feodor Ogrin
Contributor: David Cortés-Ortuño ORCID iD
Contributor: Horia Popescu
Contributor: Paul Steadman
Contributor: Samuel Moody
Contributor: Murray Wilson

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