SuperEMFL | Superconducting magnets for the European Magnet Field Laboratory

Summary
The magnetic field is a powerful thermodynamic parameter to influence the state of any material system and such is an outstanding experimental tool for physics. To go beyond the conventional commercially available superconducting (SC) magnets, very large infrastructures such as the ones gathered within the European Magnetic Field Laboratory (EMLFL) are necessary. EMFL provides access to static resistive magnets (up to 38 T) and pulsed non-destructive (up to 100 T) and semi-destructive (up to 200 T) magnets for all qualified European researchers.
Some recent advances open the way for the implementation of high temperature superconductor (HTS) magnets at the EMFL facilities. The SuperEMFL design study aims to add through the development of the HTS technology an entirely new dimension to the EMFL that go beyond the commercial offer, providing the European high field user community with much higher SC fields and novel SC magnet geometries, like large-bore-high-flux magnets or radial access magnets.
The development of SC magnets that can partly replace current high-field resistive magnets will result in a significant reduction of the energy consumption of the static field EMFL facilities. This will strongly improve EMFL’s financial and ecological sustainability and at the same time boost its scientific performance and impact.
The high field values, the very low noise and vibration levels, and the possibility to run very long duration experiments will make high SC magnetic fields attractive to scientific communities that so far have rarely used the EMFL facilities (NMR, scanning probe, Fourier transform infrared spectroscopies, ultra-low temperature physics, electro-chemistry …).
All these new research possibilities will strengthen the scientific performance, efficiency and attractiveness of the EMFL and thereby of the European Research Area (ERA). The implementation of this strategy should therefore be considered as a major upgrade of the EMFL.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/951714
Start date: 01-01-2021
End date: 31-12-2024
Total budget - Public funding: 2 904 356,25 Euro - 2 904 356,00 Euro
Cordis data

Original description

The magnetic field is a powerful thermodynamic parameter to influence the state of any material system and such is an outstanding experimental tool for physics. To go beyond the conventional commercially available superconducting (SC) magnets, very large infrastructures such as the ones gathered within the European Magnetic Field Laboratory (EMLFL) are necessary. EMFL provides access to static resistive magnets (up to 38 T) and pulsed non-destructive (up to 100 T) and semi-destructive (up to 200 T) magnets for all qualified European researchers.
Some recent advances open the way for the implementation of high temperature superconductor (HTS) magnets at the EMFL facilities. The SuperEMFL design study aims to add through the development of the HTS technology an entirely new dimension to the EMFL that go beyond the commercial offer, providing the European high field user community with much higher SC fields and novel SC magnet geometries, like large-bore-high-flux magnets or radial access magnets.
The development of SC magnets that can partly replace current high-field resistive magnets will result in a significant reduction of the energy consumption of the static field EMFL facilities. This will strongly improve EMFL’s financial and ecological sustainability and at the same time boost its scientific performance and impact.
The high field values, the very low noise and vibration levels, and the possibility to run very long duration experiments will make high SC magnetic fields attractive to scientific communities that so far have rarely used the EMFL facilities (NMR, scanning probe, Fourier transform infrared spectroscopies, ultra-low temperature physics, electro-chemistry …).
All these new research possibilities will strengthen the scientific performance, efficiency and attractiveness of the EMFL and thereby of the European Research Area (ERA). The implementation of this strategy should therefore be considered as a major upgrade of the EMFL.

Status

SIGNED

Call topic

INFRADEV-01-2019-2020

Update Date

28-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.4. EXCELLENT SCIENCE - Research Infrastructures
H2020-EU.1.4.1. Developing the European research infrastructures for 2020 and beyond
H2020-EU.1.4.1.1. Developing new world-class research infrastructures
H2020-INFRADEV-2019-3
INFRADEV-01-2019-2020 Design Studies