Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry
Abstract This work presents a quasi‐three‐dimensional (Q3D) approach for the magnetic field simulation in superconducting devices. First‐order two‐dimensional finite‐element edge functions in the model's cross‐section are combined with one‐dimensional orthogonal polynomials along the longitudin...
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| Format: | Article |
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Wiley
2021-05-01
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| Series: | IET Science, Measurement & Technology |
| Online Access: | https://doi.org/10.1049/smt2.12033 |
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doaj-f7c493d83715425fb8b84a6c41fadcff2021-08-02T08:25:33ZengWileyIET Science, Measurement & Technology1751-88221751-88302021-05-0115331932710.1049/smt2.12033Quasi‐3D magnetic field simulation of superconducting devices with translational symmetryLaura A. M. D'Angelo0Herbert De Gersem1Institute for Accelerator Science and Electromagnetic Fields (TEMF) Technische Universität Darmstadt Darmstadt GermanyInstitute for Accelerator Science and Electromagnetic Fields (TEMF) Technische Universität Darmstadt Darmstadt GermanyAbstract This work presents a quasi‐three‐dimensional (Q3D) approach for the magnetic field simulation in superconducting devices. First‐order two‐dimensional finite‐element edge functions in the model's cross‐section are combined with one‐dimensional orthogonal polynomials along the longitudinal direction. The interfilament coupling currents arising in superconducting multi‐filament materials are modelled by taking the associated magnetization into account. For this formulation, the Q3D ansatz is elaborated, verificated and applied to a superconducting cable model. In the end, the approach is compared to a conventional three‐dimensional finite‐element method against which the proposed Q3D method demonstrates a superior computational efficiency.https://doi.org/10.1049/smt2.12033 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Laura A. M. D'Angelo Herbert De Gersem |
| spellingShingle |
Laura A. M. D'Angelo Herbert De Gersem Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry IET Science, Measurement & Technology |
| author_facet |
Laura A. M. D'Angelo Herbert De Gersem |
| author_sort |
Laura A. M. D'Angelo |
| title |
Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry |
| title_short |
Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry |
| title_full |
Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry |
| title_fullStr |
Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry |
| title_full_unstemmed |
Quasi‐3D magnetic field simulation of superconducting devices with translational symmetry |
| title_sort |
quasi‐3d magnetic field simulation of superconducting devices with translational symmetry |
| publisher |
Wiley |
| series |
IET Science, Measurement & Technology |
| issn |
1751-8822 1751-8830 |
| publishDate |
2021-05-01 |
| description |
Abstract This work presents a quasi‐three‐dimensional (Q3D) approach for the magnetic field simulation in superconducting devices. First‐order two‐dimensional finite‐element edge functions in the model's cross‐section are combined with one‐dimensional orthogonal polynomials along the longitudinal direction. The interfilament coupling currents arising in superconducting multi‐filament materials are modelled by taking the associated magnetization into account. For this formulation, the Q3D ansatz is elaborated, verificated and applied to a superconducting cable model. In the end, the approach is compared to a conventional three‐dimensional finite‐element method against which the proposed Q3D method demonstrates a superior computational efficiency. |
| url |
https://doi.org/10.1049/smt2.12033 |
| work_keys_str_mv |
AT lauraamdangelo quasi3dmagneticfieldsimulationofsuperconductingdeviceswithtranslationalsymmetry AT herbertdegersem quasi3dmagneticfieldsimulationofsuperconductingdeviceswithtranslationalsymmetry |
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1721238335780814848 |