Advanced Superconducting Materials

Advanced Superconducting Materials

Scientific context State of the art research in:  Correlated electron physics: cuprates, TM oxides, pnictides, organic conductors, heavy fermions, etc.  New quantum phases: d-wave pairing, spin liquids, electronic liquid crystals, stripes, orbital ordering, triplet localization, Luttinger, FFLO and BE condensation, etc.  Exotic superconductivity: cuprates,, pnictides, heavy-fermions

An example of excellence URhGe:  Discovered in Grenoble (Dai Aoki, ERC 2010)  Extreme conditions of temperature and field  Collaboration INAC / Néel / LNCMI  Trained young researchers

Application potential Tools and applications  Extreme conditions: Low temperatures, high magnetic fields, high pressures, atomic scale,…  Advanced instrumentation: X ray and neutron scattering, NMR, spectroscopy, nanosquid, magnetometry,…  Emergent applications: High Tc superconductors, multiferroics, thermoelectrics, graphene electronics etc. Potential for industrial users Potential for industrial applications

Grenoble positioning •  Recognized know-how & excellence heritage in magnetism and superconductivity •  Benefit from European large-scale facilities (part of SNRI!) • (magnetic fields, synchrotron and neutron sources) •  Competitive and attractive at international level • (ANR & ERC grants, awards, publications, intal collaborations) •  Young permanent researchers • Strong Ongoing collaborations between INAC, I. Néel & LNCMI (3xA+): 90 joint publications in 2005-2010 • Local industrial interest (Nexans, Air Liquide, ..)  Equipex LaSUP

LaSUP: Large Superconducting magnet User Platform Equipment 1: 8,5 T/800 mm NbTi magnet + test equipment superconductors Equipment 2: 15 T/300 mm Nb3Sn magnet + development HTSC inserts Equipment 3: 20 T/52 mm, 4K, 10 ppm magnet + 20 mK dilution refrigerator Equipment 4: 120 l/h helium liquefier + 6000 m3 gaz storage Total investment 9,5 M€

LaSUP: 43 T/34 mm hybrid magnet 18 T/375 mm hybrid levitation station 18 T/375 mm hybrid test station superconductors 8.5 T/800 mm magnet Equipment 1bis Equipment 2bis 15 T/300 mm magnet magneto-science 30 T/34 mm Nb3Sn/HTSC all-SC magnet + 6 years operating cost as user platform

Training, education, outreach, etc.  Hands on training of undergrad and graduate students  Regular thematic schools, HERCULES  Ongoing initiatives to improve visibility/attractivity (Website, seminars, 100 years of superconductivity...)  Planned initiatives for coherent teaching & training offer

Concrete propositions  Centre for Applied Superconductivity; development, training, industrial collaborations, and commercialisation  ??

Advanced Superconducting Materials

Advanced Superconducting Materials

Presentation Transcript

Ashland Advanced Materials

SUPERCONDUCTING MATERIALS

Advanced Materials Laboratory

Advanced Engineering materials

Advanced Inorganic Materials

Coherence in Superconducting Materials for Quantum Computing

Advanced Composite materials

ADVANCED MATERIALS DAY

ADVANCED MECHANICS OF MATERIALS

Superconducting Materials

WP-M3 Superconducting Materials PArametric COnverter Detector

Advanced metallic materials

RF Superconducting Materials Workshop at Fermilab

Overview and Application of Superconducting Materials

Advanced Materials Market

Advanced Materials Letters

Superconducting Materials Market Size, Trend - 2027

SUPERCONDUCTING MATERIALS

Superconducting Materials Suitable for Magnets

Advanced Materials

Advanced Materials Market

Superconducting Materials Market