Projects (Extract Research Database)

Running projects

Data driven magnet design through combinatorial synthesis and micromagnetic graph networks

Duration: 01/03/2023–31/03/2026
Principle investigator for the project (University for Continuing Education Krems): Harald Özelt
Funding: FWF

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Design of Nanocomposite Magnets by Machine Learning

Duration: 01/11/2022–30/04/2027
Principle investigator for the project (University for Continuing Education Krems): Harald Özelt
Funding: FWF

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Publications (Extract Research Database)

Ali, Q.; Fischbacher, J.; Kovacs, A.; Özelt, H.; Gusenbauer, M.; Moustafa, H.; Böhm, D.; Breth, L.; Schrefl, T. (2024). Defect manipulation for the coercivity enhancement of Nd-Fe-B permanent magnets. Physica B: Condensed Matter, Vol. 678: 415759

Moustafa, H.; Kovacs, A.; Fischbacher, J.; Gusenbauer, M.; Ali, Q.; Breth, L.; Hong, Y.; Rigaut, W.; Devillers, T.; Dempsey, N. M.; Schrefl, T.; Özelt, H. (2024). Reduced Order Model for Hard Magnetic Films. AIP Advances, Vol. 14, iss. 2: 025001-1 bis 025001-5

Ali, Q.; Fischbacher, J.; Kovacs, A.; Oezelt, H.; Gusenbauer, M.; Moustafa, H.; Böhm, D.; Breth, L.; Schrefl, T. (2023). Defect Manipulation for the Coercivity Enhancement of Nd-Fe-B Permanent Magnets. SSRN, 2023: 4628986, Elesevier

Lectures (Extract Research Database)

Graph Neural Networks to Predict Coercivity of Hard Magnetic Microstructures

Intermag 2024, 08/05/2024

Reduced Order Model for Hard Magnetic Films

68th Annual Conference on Magnetism and Magnetic Materials, 31/10/2023

Reduced Order Model for Hard Magnetic Films

MMM 2023, 31/10/2023

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