Body
| Project(s) / Programme | WP(s) | Institute(s) | Title of the publication | Published in | Link | Authors | Year | Releases |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN | Deformation Behavior and Degradation on Rutherford Cabling of Nb3Sn Wires | IEEE Trans. Appl. Supercond. in press | Link will follow |
S.C. Hopkins et al. |
2024 |
|
| HFM | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 | UNIGE - CERN | Influence of the heat treatment on the layer JC of internal-Sn Nb3Sn wires with internally oxidized nanoparticles, | IEEE Trans. Appl. Supercond. in press | LINK |
F. Lonardo et al. |
2024 |
|
| HFM | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 |
UNIGE - CERN - PSI | X-Ray Absorption Spectroscopy to Investigate Precipitated Oxides in Nb3Sn Wires With an Internal Oxygen Source | IEEE Trans. Appl. Supercond. 34 | LINK |
G. Bovone et al. |
2024 |
|
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN | Effect of transverse compressive stress applied at room temperature on Nb3Sn Rutherford cables | Supercond. Sci. Technol. 37 | LINK | G. Lenoir et al. | 2024 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP WP1.6 - Nb3Sn conductor – KEK collaboration ICA-JP-0103 App19 |
KEK - JASTEC - CERN | Influence of Axial Strain and Transverse Compressive Load on Critical Current of Nb3Sn Wires for the FCC | IEEE Trans. Appl. Supercond. 33 | LINK | M. Nakamoto et al. | 2023 | |
| HFM | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 | UNIGE - CERN - Grenoble | Effects of the oxygen source configuration on the superconducting properties of internally-oxidized internal-Sn Nb3Sn wires | Supercond. Sci. Technol. 36 | LINK | G. Bovone et al. | 2023 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN | Design Optimization, Cabling and Stability of Large-Diameter High Jc Nb3Sn Wires | IEEE Trans. Appl. Supercond. 33 | LINK | S.C. Hopkins et al. | 2023 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP WP2.1 - R&D on accelerator grade HTS REBCO conductors - KIT collaboration KE5283 |
CERN - KIT | Onset of Mechanical Degradation due to Transverse Compressive Stress in Nb3Sn Rutherford-Type Cables | IEEE Trans. Appl. Supercond. 33 | LINK | K. Puthran et al. | 2023 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN - TU Wien | Degradation of Ic due to residual stress in high-performance Nb3Sn wires submitted to compressive transverse force | Supercond. Sci. Technol. 36 | LINK | C. Senatore et al. | 2023 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN - TU Wien | Analysis of inhomogeneities in Nb3Sn wires by combined SEM and SHPM and their impact on Jc and Tc | Supercond. Sci. Technol. 36 | LINK | S. Pfeiffer et al. | 2023 | |
| HFM | WP1.7 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - FSURF collaboration KE5094 | FSU | Comparative Drawability and Recrystallization Evaluation of Nb4Ta and Nb4Ta1Hf Alloys, and the Beneficial Influence of Hf on Developing Finer Nb3Sn Grain Size and Higher Superconducting Critical Current Density | SSRN, pre-print | LINK | S. Balachandran et al. | 2022 | |
| HFM | WP1.2 - R&D on optimisation of Nb3Sn microstructure and pinning - BAF collaboration KE5074 | TU Freiberg | Thermodynamic re-modelling of the Cu–Nb–Sn system: Integrating the nausite phase | Calphad 77 102409 | LINK | J. Lachmann et al. | 2022 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors | UNIGE - ESRF | Formation and propagation of cracks in RRP Nb3Sn wires studied by deep learning applied to x-ray tomography | Supercond. Sci. Technol. 35 | LINK | T. Bagni et al. | 2022 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors | LBNL - CERN | Cable Design and Development for the High-Temperature Superconductor Cable Test Facility Magnet | IEEE Trans. Appl. Supercond. 31 | LINK | I. Pong et al. | 2021 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors | LBNL - CERN - Fermilab | Magnetic and Mechanical Analysis of a Large Aperture 15 T Cable Test Facility Dipole Magnet | IEEE Trans. Appl. Supercond. 31 | LINK | G. Vallone et al. | 2021 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | TU Wien - CERN - Bochvar | Nb3Sn Wires for the Future Circular Collider at CERN: Microstructural Investigation of Different Wire Layouts | IEEE Trans. Appl. Supercond. 31 | LINK | A. Moros et al. | 2021 | |
| HFM | WP1.2 - R&D on optimisation of Nb3Sn microstructure and pinning - BAF collaboration KE5074 | CERN - TU Freiberg | Phase Evolution During Heat Treatment of Nb3Sn Wires Under Development for the FCC Study | IEEE Trans. Appl. Supercond. 31 | LINK | S.C. Hopkins et al. | 2021 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | FSU - Argonne - Oxford | Origin of the enhanced Nb3Sn performance by combined Hf and Ta doping | Sci. Rep. 11 | LINK | C. Tarantini et al. | 2021 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors, and RD Line 3 - Nb3Sn Magnets | CERN - PSI - LBNL - Fusion for Energy | Progress on the Upgrade of EDIPO, a 15 T Large Aperture Dipole | IEEE Trans. Appl. Supercond. 31 | LINK | D. Martins Araujo et al. | 2021 | |
| HFM | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 | UNIGE - CERN - Grenoble | Very high upper critical fields and enhanced critical current densities in Nb3Sn superconductors based on Nb–Ta–Zr alloys and internal oxidation | J. Phys. Mater. 4 | LINK | F. Buta et al. | 2021 | |
| HFM | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 | UNIGE - CERN - LBNL | Effects of the initial axial strain state on the response to transverse stress of high-performance RRP Nb3Sn wires | Supercond. Sci. Technol. 34 | LINK | J. Ferradas Troitino et al. | 2021 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors | CERN | Design, Performance and Cabling Analysis of Nb3Sn Wires for the FCC Study | J. Phys.: Conf. Ser. 1559 | LINK | S. C. Hopkins et al. | 2020 | |
| HFM | WP1.7 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - FSURF collaboration KE5094 | CERN - FSU | Evidence of Kramer extrapolation inaccuracy for predicting high field Nb3Sn properties | J. Phys.: Conf. Ser. 1559 | LINK | C. Segal et al. | 2020 | |
| HFM | WP1.2 - R&D on optimisation of Nb3Sn microstructure and pinning - BAF collaboration KE5074 | TU Freiberg | Nausite and NbSn2 – Growth and distinction of structural related intermetallic phases in the Cu–Nb–Sn system | Mater. Charact. 168 | LINK | J. Lachmann et al. | 2020 | |
| HFM | WP1.4 - Development of Nb3Sn Wires - BRUKER-EAS collaboration KE4187 | Brruker EAS - KIT | Challenges and Perspectives of the Phase Formation of Internally Oxidized PIT-Type Nb3Sn Conductors | IEEE Trans. Appl. Supercond. 30 | LINK | C. Buehler et al. | 2020 | |
| HFM | WP1.1 - Nb3Sn conductors for high field magnets - CERN WP | CERN | Quantitative Analysis and Optimization of Nb3Sn Wire Designs Toward Future Circular Collider Performance Targets | IEEE Trans. Appl. Supercond. 29 | LINK | S.C. Hopkins et al. | 2019 | |
| HFM | Various WPs from RD Line 1 - Nb3Sn Conductors | CERN - KEK - JASTEC - Furukawa - Bochvar - TVEL - UNIGE - KAT - TU Wien - CNR-SPIN | The CERN FCC Conductor Development Program: A Worldwide Effort for the Future Generation of High-Field Magnets | IEEE Trans. Appl. Supercond. 29 | LINK | A. Ballarino et al. | 2019 | |
| HFM | Various WPs from RD Line 2 - HTS Conductors and HTS Magnet Technologies | CERN - SOTON | Magnetic field and temperature scaling of the critical current of REBCO tapes | IEEE Transactions on Applied Superconductivity | Link will follow | G. Succi, A. Ballarino, et al. | 2023 | |
| HFM | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | Longitudinal and Transverse Dimensional Changes during Heat Treatment of the Nb3Sn Cables for the Graded Research Racetrack Dipole Demonstrator (R2D2) | IEEE Transactions on Applied Superconductivity | LINK | E. Fernandez Mora, M. Durante, J. C. Perez, et al. | 2024 | |
| HM, FCC | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | Quench Protection of Nb3Sn High Field Magnets Using Heaters, a Strategy Applied to the Graded Racetrack Dipole R2D2 | IEEE Transactions on Applied Superconductivity | LINK | T. Salmi; D. Liu; V. Calvelli; E. Rochepault | 2023 | |
| HM, FCC | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | CLIQ Protection Design for the Graded Nb3Sn Research Racetrack Dipole Demonstrator (R2D2) | IEEE Transactions on Applied Superconductivity | LINK | Dong Liu; Tiina Salmi; Valerio Calvelli; Etienne Rochepault | 2023 | |
| HFM | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | 3D Conceptual Design of R2D2, the Research Racetrack Dipole Demonstrator | IEEE Transactions on Applied Superconductivity, | LINK | E. Rochepault; V. Calvelli; M. Durante; et al. | 2022 | |
| HM, FCC | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | R2D2, the CEA Graded Nb3Sn Research Racetrack Dipole Demonstrator Magnet | IEEE Transactions on Applied Superconductivity | LINK | V. Calvelli ; E. Rochepault; S. Izquierdo Bermudez et al. | 2021 | |
| HM, FCC | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | 3D Conceptual Design of F2D2, the FCC Block-Coil Short Model Dipole | IEEE Transactions on Applied Superconductivity | LINK | E. Rochepault; V. Calvelli ; M. Durante ; et al. | 2020 | |
| HM, FCC | WP3.6 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE3782 WP3.12 - Nb3Sn ultimate performance R2D2 racetrack dipole demonstrator - CEA collaboration KE5655 |
CEA - CERN | F2D2: a Block-coil Short-model Dipole Toward FCC | IEEE Transactions on Applied Superconductivity | LINK | H. Felice, M. Durante, E. Rochepault, et al. | 2019 | |
| HFM | WP4.3 - Insulation materials for HFM magnet coils and conductors - CERN WP | CERN | Irradiation induced aging of epoxy resins for impregnation of superconducting magnet coils | IEEE Transactions on Applied Superconductivity | LINK | D.M. Parragh, C. Scheuerlein, R. Piccin, F. Ravotti, et al. | 2023 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Efficient Reduced Magnetic Vector Potential Formulation for the Magnetic Field Simulation of Accelerator Magnets | IEEE Transactions on Magnetics | LINK | L. D'Angelo, D. Moll, A. Vitrano, et al. | 2024 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Magneto-Thermal Thin Shell Approximation for 3D Finite Element Analysis of No-Insulation Coils | IEEE Transactions on Applied Superconductivity | LINK | E. Schnaubelt, M. Wozniak, et al. | 2024 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Quench Co-Simulation for Canted Cos-Theta Magnets | IEEE Transactions on Applied Superconductivity | LINK | M. Wozniak, E. Schnaubelt, et al. | 2024 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Quench Behaviour of Fusillo sub-scale curved CCT magnet | IEEE Transactions on Applied Superconductivity | LINK | M. Wozniak, A. Haziot, F. J. Mangiarotti, E. Ravaioli, et al. | 2024 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Optimizing Secondary CLIQ for protecting high-field accelerator magnets | IEEE Transactions on Applied Superconductivity | LINK | E. Ravaioli, T. Mulder, A. Verweij, M. Wozniak | 2024 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | External Coil Coupled Loss Induced Quench (E-CLIQ) System for Protection of LTS Magnets | IEEE Transactions on Applied Superconductivity | LINK | T. Mulder, E. Schnaubelt, M. Wozniak, et al. | 2023 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Electromagnetic Simulation of No-Insulation Using h-phi Thin Shell Approximation | IEEE Transactions on Applied Superconductivity | LINK | E. Schnaubelt, M. Wozniak, S. Schöps | 2023 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Thermal thin shell approximation towards finite element quench simulation | Superconductor Science and Technology | LINK | E. Schnaubelt, M. Wozniak, S. Schöps | 2023 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | An open-source finite element quench simulation tool for superconducting magnets | IEEE Transactions on Applied Superconductivity | LINK | A. Vitrano, M. Wozniak, E. Schnaubelt, et al. | 2023 | |
| HFM | WP4.5 - Quench detection, protection and diagnostic methods for Nb3Sn and HTS high-field magnets - CERN WP | CERN | Fast Quench Propagation Conductor for protecting Canted Cos-Theta Magnets | IEEE Transactions on Applied Superconductivity | LINK | M. Wozniak, E. Ravaioli, A. Verweij | 2023 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
CHART - CERN | Harnessing manufacturing elements to select local process parameters for metal additive manufacturing: A case study on a superconducting solenoid coil | Science Direct | LINK | Julian Ferchow, Manuel Biedermann, et al. | 2021 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
CHART - CERN | Magneto-Mechanical Optimization of Cross-Sections for cos(θ)Accelerator Magnets | IEEE Transactions on Applied Superconductivity | LINK | G. Vallone; B. Auchmann; M. Maciejewski; J. Smajic | 2022 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
CHART - CERN - PSI - UTwente - Cornell University | Improved training in paraffin-wax impregnated Nb3Sn Rutherford cables demonstrated in BOX samples | Cornell University | LINK | Michael Daly, Bernard Auchmann, André Brem, et al. | 2022 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 WP.2.7 - R&D on mechanical properties of REBCO cables- U-Twente collaboration KE5276 |
CHART - CERN - UTwente - LBNL | BOX: an efficient benchmark facility for the study and mitigation of interface-induced training in accelerator type high-field superconducting magnets | IOP Science | LINK | Michael Daly, Bernard Auchmann, Christoph Hu, et al. | 2021 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
CHART - CERN | Study of a Current-Based Quench Detection Method for CCT Magnets via a Co-Wound Superconducting Sensing Wire | IEEE Transactions on Applied Superconductivity | LINK | Jiani Gao; Bernhard Auchmann; et al. | 2021 | |
| HFM, FCC | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
EPFL - PSI - CHART | Analysis of Quench Detection and Protection of a Nb3Sn CCT Technology Demonstrator Dipole for FCC | EPFL Scientific publications | LINK | Jiani Gao; Advisors: Bernhard Auchmann; Andreas Pautz | 2020 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 WP4.4 - R&D on impregnation materials for HFM magnet coils - ETHZ/CHART collaboration KE4738 |
CHART | Elasticity, plasticity and fracture toughness at ambient and cryogenic temperatures of epoxy systems used for the impregnation of high-field superconducting magnets | Science Direct | LINK | André Brem, Barbara J. Gold, Bernhard Auchmann, et al. | 2021 | |
| HFM, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Effects of the oxygen source configuration on the superconducting properties of internally-oxidized internal-Sn Nb3Sn wires | IOP Science | LINK | G Bovone, F Buta, F Lonardo, et al. | 2023 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Very high upper critical fields and enhanced critical current densities in Nb3Sn superconductors based on Nb–Ta–Zr alloys and internal oxidation | Journal of Physics: Materials, Volume 4 | LINK | F Buta, M Bonura, D Matera, G Bovone, et al. | 2021 | |
| HFM, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Degradation of Ic due to residual stress in high-performance Nb3Sn wires submitted to compressive transverse force | IOP Science | LINK | C Senatore, T Bagni, J Ferradas-Troitino, et al. | 2023 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Formation and propagation of cracks in RRP Nb3Sn wires studied by deep learning applied to x-ray tomography | IOP Science | LINK | Tommaso Bagni, Diego Mauro, et al. | 2022 | |
| HFM, FCC | WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Tomography analysis tool: an application for image analysis based on unsupervised machine learning | IOP SciNotes, Volume 3 | LINK | T Bagni, H Haldi, D Mauro and C Senatore | 2022 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Machine learning applied to X-ray tomography as a new tool to analyze the voids in RRP Nb3Sn wires | Scientific Reports | LINK | D. Mauro, C. Barth,, F. Buta & C. Senatore et al. | 2021 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Effects of the initial axial strain state on the response to transverse stress of high-performance RRP Nb3Sn wires | IOP Science | LINK | J Ferradas Troitino, T Bagni, C Barth, et al. | 2021 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 |
CERN - UNIGE | Determination of the electromechanical limits of high-performance Nb 3 Sn Rutherford cables under transverse stress from a single-wire experiment |
PHYSICAL REVIEW RESEARCH | LINK | L. Gämperle, J. Ferradas, C. Barth, et al. | 2020 | |
| HFM, FCC, HL-LHC |
WP1.3 - Nb3Sn conductor Jc performance and electro-mechanical properties beyond state-of-the-art. - UNIGE collaboration KE4663 WP2.3 - HTS conductors - UNIGE collaboration KE4612 WP1.6 - Nb3Sn conductor – KEK collaboration ICA-JP-0103 App19 WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 Various WPs from RD Line 3 - RD3 - Nb3Sn Magnets |
CERN - UNIGE - INFN - Utwente - CEA - CHART - KEK - Centre for Energy Spain - Tampere University | The 16 T Dipole Development Program for FCC | IEEE Transactions on Applied Superconductivity | LINK | Davide Tommasini; B. Auchmann; et al. | 2016 | |
| HFM, FCC, HL-LHC |
Various WPs from RD Line 3 - RD3 - Nb3Sn Magnets | Collaborations | FCC-hh: The Hadron Collider | Springer Link | LINK | A. Abada, M. Abbrescia, et al. | 2019 | |
| HFM, FCC, HL-LHC |
Various WPs from RD Line 3 - RD3 - Nb3Sn Magnets | Collaborations | FCC-ee: The Lepton Collider | Springer Link | LINK | A. Abada, M. Abbrescia, S. S. AbdusSalam, et al. | 2019 | |
| HFM, FCC, HL-LHC |
Various WPs from RD Line 3 - RD3 - Nb3Sn Magnets | Collaborations | FCC Physics Opportunities | Springer Link | LINK | A. Abada, M. Abbrescia, S. S. AbdusSalam, et al. | 2019 | |
| HFM | WP3.8 - Nb3Sn ultimate performance coil stress management dipole model - PSI/CHART collaboration KE4808 WP. 3.14 - R&D relating to LTS and HTS technology - PSI/CHART collaboration KE5943 |
CERN - PSI - Lawrence Berkeley National Laboratory | Coil Manufacturing Process of the First 1-m-Long Canted–Cosine–Theta (CCT) Model Magnet at PSI | IEEE Transactions on Applied Superconductivity | LINK | Giuseppe Montenero; Bernhard Auchmann; et al. | 2019 | |
| EuroCirCol | CERN - Frascati - CELLS - KIKT | Results on the FCC-hh Beam Screen at the KIT Electron Storage Ring KARA | CERN document server | LINK | Gonzalez, Luis (Frascati ; CERN) ; Baglin, Vincent (CERN) ; et al. | 2018 | CERN Bulletin | |
| EuroCirCol | CERN | Preliminary EIR design including optimized lattice deck: Deliverable D3.3 | CERN document server | LINK | Tomas Garcia, Rogelio (CERN) ; Martin, Roman | 2019 | CERN Bulletin | |
| EuroCirCol | CERN - Saclay | EuroCirCol 16 T Block-Coils Dipole Option for the Future Circular Collider | IEEE Trans. Appl. Supercond. 27 | LINK | Lorin, Clement (Saclay) ; Durante, Durante (Saclay) ; Segreti, Michel (Saclay) | 2016 | CERN Bulletin | |
| EuroCirCol | CERN - INFN | The EuroCirCol 16T Cosine–Theta Dipole Option for the FCC | IEEE Trans. Appl. Supercond. 27 | LINK | Sorbi, Massimo ; Bellomo, Giovanni et al. | 2016 | CERN Bulletin | |
| EuroCirCol | CERN - Tampere University - Saclay - CIEMAT | Quench protection analysis integrated in the design of dipoles for the Future Circular Collider | Phys. Rev. Accel. Beams 20 (2017) | LINK | Salmi, Tiina (Tampere U. of Tech.) ; Stenvall, Antti (Tampere U. of Tech.) et al. | 2016 | CERN Bulletin | |
| EuroCirCol | CERN - Tampere University - INFN | Suitability of Different Quench Protection Methods for a 16 T Block-Type Nb3Sn Accelerator Dipole Magnet | IEEE Trans. Appl. Supercond. 27 | LINK | Salmi, Tiina (Tampere U. of Tech.) ; Prioli, Marco (CERN) ; Stenvall, Antti et al. | 2016 | CERN Bulletin | |
| EuroCirCol | CERN - INFN | Considerations on a Cost Model for High-Field Dipole Arc Magnets for FCC | IEEE Trans. Appl. Supercond. 27 | LINK | Auchmann, B; Bajko, Marta; Ballarino, Amalia; et al. | 2016 | CERN Bulletin | |
| EuroCirCol | CERN - University of Oxford | Requirements and constraints of EIR design option on WP2, WP4, WP5: Milestone M3.3 | CERN document server | LINK | Seryi, Andrei (University of Oxford (GB)) | 2017 | CERN Bulletin | |
| EuroCirCol | CERN - Tampere University - INFN | Quench Protection Study of the Eurocircol 16 T cosθ Dipole for the Future Circular Collider (FCC) | IEEE Trans. Appl. Supercond. 27 | LINK | Marinozzi, Vittorio ; Bellomo, Giovanni (INFN) ; et al. | 2017 | CERN Bulletin |