Difference between revisions of "Superconducting wire"
From ONELAB
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To run the model, open '''helix.pro''' with Gmsh. | To run the model, open '''helix.pro''' with Gmsh. | ||
| − | See <ref name=Stenvall /> <ref name= | + | See <ref name=Stenvall /> <ref name=Kameni2012 /> <ref name= Pellika2013 />. |
== References == | == References == | ||
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<ref name=Stenvall>A. Stenvall, </ref> | <ref name=Stenvall>A. Stenvall, </ref> | ||
| − | <ref name=Kameni2012>A. Kameni, J. Lambrechts, J.-F. Remacle, S. Mezani, F. Bouillaut and C. Geuzaine. [http://orbi.ulg.ac.be/handle/2268/113659 Discontinuous Galerkin Method for Computing Induced Fields in Superconducting Materials]. IEEE Transactions on Magnetics 48(2), pp 591-594, 2012. | + | <ref name=Kameni2012>A. Kameni, J. Lambrechts, J.-F. Remacle, S. Mezani, F. Bouillaut and C. Geuzaine. [http://orbi.ulg.ac.be/handle/2268/113659 Discontinuous Galerkin Method for Computing Induced Fields in Superconducting Materials]. IEEE Transactions on Magnetics 48(2), pp 591-594, 2012.</ref> |
<ref name=Pellika2013> M. Pellikka, S. Suuriniemi, L. Kettunen and C. Geuzaine, [http://geuz.org/gmsh/doc/preprints/gmsh_homology_preprint.pdf Homology and cohomology computation in finite element modeling]. SIAM Journal on Scientific Computing 35(5), pp. 1195-1214, 2013.</ref> | <ref name=Pellika2013> M. Pellikka, S. Suuriniemi, L. Kettunen and C. Geuzaine, [http://geuz.org/gmsh/doc/preprints/gmsh_homology_preprint.pdf Homology and cohomology computation in finite element modeling]. SIAM Journal on Scientific Computing 35(5), pp. 1195-1214, 2013.</ref> | ||
Revision as of 09:09, 24 July 2015
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2D and 3D models of superconducting wires.
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Download model archive (superconductors.zip) |
Additional information
To run the model, open helix.pro with Gmsh.
References
- ↑ A. Stenvall,
- ↑ A. Kameni, J. Lambrechts, J.-F. Remacle, S. Mezani, F. Bouillaut and C. Geuzaine. Discontinuous Galerkin Method for Computing Induced Fields in Superconducting Materials. IEEE Transactions on Magnetics 48(2), pp 591-594, 2012.
- ↑ M. Pellikka, S. Suuriniemi, L. Kettunen and C. Geuzaine, Homology and cohomology computation in finite element modeling. SIAM Journal on Scientific Computing 35(5), pp. 1195-1214, 2013.
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Model developed by C. Geuzaine, A. Kameni and A. Stenvall.
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