Category: Rds

RD0 – Management and communication RD0 includes the HFM Programme office The Programme Office manages all administrative and coordination aspects required by the HFM R&D Programme, including: – preparation and running of meetings, – budget and planning follow-up, – administrative and contractual follow-up of collaboration agreements, – reporting, documentation and archiving – creation and update…

Explore →

RD6 – Scientific and Societal Impact Forum The main goals of the RD6 Line are: Maximize the output in terms of publications, synergies with others field, societal impact, and liaison with industries.

Explore →

RD5 – Infrastructure and Measurement Techniques The main goals of the RD5 Line are: Developments of infrastructures and tooling required for the programme goals

Explore →

RD4 – Integration, Sustainability The main goals of the RD4 Line are: Develop the cryogenic techniques, in synergy with magnet design; explore the 4.5 K option for Nb3Sn Develop novel protection systems to enhance magnet performance and related simulation tools Develop insulation and impregnation schemes compatible with novel concepts of protection and cooling Possible implementation…

Explore →

RD3 – Nb3Sn Magnets The main goals of the RD3 Line are: Design and demonstrate short models main dipoles of 12 to 14 T operational fields, based on different designs Seek cost-effective engineering solutions, suitable for large-scale production Scale the most promising main dipole designs to 5 and 15 m

Explore →

RD2 – HTS Conductors and HTS Technologies The main goals of the RD2 Line are: Procure conductors for the magnet program, including extensive characterization measurements. Present Focus is on ReBCO Develop ReBCO conductors in R&D laboratories Explore the potential of promising new materials, e.g. iron based superconductors Explore HTS magnet technology at for accelerator main…

Explore →

RD1 – Nb3Sn Conductors The main goals of the RD1 Line are: Industrialize HFM R&D wires, including new suppliers, and reduce cost Perform R&D to increase Jc performance (to ~1500 A/mm2 at 16 T, i.e. ~25 % above state-of-the-art) Procure HL-LHC class wire and cable for the magnet program, including extensive characterization measurements

Explore →