High-temperature superconducting materials for fusion magnets. The partner project is KKKÖ ME

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Primary Data

Project Acronym Projekt Kurzbezeichnung
EUROfusion ME
 
Project Title (de) Projekttitel (de)
High-temperature superconducting materials for fusion magnets. The partner project is KKKÖ ME
 
Project Title (en) Projekttitel (en)
High-temperature superconducting materials for fusion magnets. The partner project is KKKÖ ME
 
Consortium Coordinator Koordinator des Konsortiums
 
Principal Investigator Projektleiter_in
 

Grants

Funder/Funding Agency Fördergeber
European Commission
Grant number Förderkennnummer
0000000000
 

Publications

Results 1-7 of 7 (Search time: 0.002 seconds).

PreviewAuthors / EditorsTitleTypeIssue Date
1Bodenseher, Alexander ; Unterrainer, Raphael Nikolaus ; Eisterer, Michael Influence of neutron radiation on the superconducting and normal state properties of REBCO filmsPresentation Vortrag15-Nov-2022
2Laura Wheatley ; Baumgartner, Thomas ; Eisterer, Michael ; Paul Bagot ; Susie Speller ; Michael Moody ; Chris Grovenor Nanoscale analysis of neutron irratiated Nb3Sn for particle accelerator and fusion applicationsPresentation Vortrag27-Oct-2022
3Unterrainer, Raphael Nikolaus ; Bodenseher, Alexander ; David Fischer ; Dennis Whyte ; Shipulin, Ilya A ; Hühne, Ruben ; Eisterer, Michael Recovery of n and p+ irradiation damaged high temperature superconductors for fusion magnet applicationsPresentation Vortrag26-Oct-2022
4Eisterer, Michael Influence of fast neutron irradiation on the properties of conventional and high temperature superconductorsPresentation Vortrag1-Sep-2022
5Eisterer, Michael ; Unterrainer, Raphael Nikolaus ; Fischer, David Understanding and Retarding the Degradation of Fusion Magnets due to Neutron RadiationPresentation Vortrag21-Jul-2022
6Eisterer, Michael Neutron irradiation effects on the superconducting performance of REBCO coated conductorsPresentation Vortrag24-Jun-2022
7Unterrainer, Raphael ; Fischer, David X ; Lorenz, Alena ; Eisterer, Michael Recovering the performance of irradiated high-temperature superconductors for use in fusion magnetsArticle Artikel 10-Feb-2022