Conveners
16 Tesla magnet: Review: EuroCirCol (1)
- Ezio Todesco (CERN)
16 Tesla magnet: Review: EuroCirCol (2)
- Alexander Zlobin (Fermilab)
16 Tesla magnet: Models & Technology ERMC-RMM-Wound Conductor
- Stephen Gourlay (LBNL)
16 Tesla magnet: Other magnets
- Toru Ogitsu
16 Tesla magnet: US magnet development programme
- Pierre Vedrine (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR))
16 Tesla magnet: Magnets for FCC-hh: status towards the CDR
- Gijs De Rijk (CERN)
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Davide Tommasini (CERN)31/05/2017, 08:30
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Clement Lorin (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR))31/05/2017, 08:40
In the framework of the EuroCirCol project the high field accelerator magnet design work package 5 focuses on double-aperture dipole magnets made of Nb3Sn conductors and providing a field of 16 T in a 50-mm aperture. Three options are considered: block-coils, common-coils and cosine-¬theta, the workload being shared between several European institutes. All options are explored and compared...
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Fernando Toral (Centro de Investigaciones Energéti cas Medioambientales y Tecno)31/05/2017, 09:00
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Vittorio Marinozzi (University of Milan / INFN)31/05/2017, 09:20
In the framework of H2020, the EuroCirCol program has the outcome of producing a conceptual design of the FCC within 2019. One of the main targets is designing a superconducting magnetic dipole able to reach 16 T, in order to bend the beams within energy and size constraints. This magnetic field can be achieved using Nb3Sn conductors at their highest performances.
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Here we present the 2D... -
Clement Lorin (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR))31/05/2017, 09:40
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Clement Lorin (CEA/IRFU,Centre d'etude de Saclay Gif-sur-Yvette (FR))31/05/2017, 10:30
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Javier Munilla Lopez (CIEMAT)31/05/2017, 10:50
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Barbara Caiffi (INFN Genova)31/05/2017, 11:10
In the framework of H2020, the EuroCirCol project has the outcome of producing a conceptual design of the Future Circular Collider within 2019. One of the main targets is designing a superconducting magnetic dipole able to reach 16 T, in order to bend the beams within energy and size constraints. This magnetic field can be achieved using Nb3Sn conductors at their highest performances.
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The... -
Tiina-Mari Salmi (Tampere University of Technology, Finland)31/05/2017, 11:30
As a part of the Future Circular Collider (FCC) project, the European Circular Energy-Frontier Collider Study (EuroCirCol) is aiming to design a 16 T Nb3Sn accelerator dipole magnet that could be used in a 100 km 100 TeV hadron collider. In addition to provide the required magnetic field, the design aims for a compact and cost-effective magnet. To select the most suitable cross-section type,...
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Susana Izquierdo Bermudez (CERN)31/05/2017, 13:30
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Etienne Rochepault (CERN)31/05/2017, 13:50
The Racetrack Model Magnet (RMM) and the Enhanced Racetrack Model Coil (ERMC), are racetrack test magnets being developed at CERN. Their main goal is to demonstrate, in view of future high field accelerator magnets, that a nominal field of 16 T can be reached in a 50 mm bore, with margins and limited training. Also, this program gives the opportunity of studying field quality, and the...
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Friedrich Lackner (CERN)31/05/2017, 14:10
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Bernhard Auchmann (CERN)31/05/2017, 14:30
The CCT (Canted Cosine Theta) Technology has been studied for its suitability for an FCC main dipole in terms of magnetic and mechanical performance, electro-thermal protectability, as well as efficiency. In this paper we present lessons learnt from our search for efficient CCT solutions by means of 2-D magnetic and mechanical simulations, discuss the 3-D periodic mechanical model, as well as...
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Dr Antoine Chance (CEA Irfu)31/05/2017, 15:30
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Ezio Todesco (CERN)31/05/2017, 15:50
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Giorgio Apollinari (Fermi National Accelerator Lab. (US))31/05/2017, 16:20
The world-wide HEP community has identified the exploitation of physics opportunities at the High Luminosity-LHC (HL-LHC) as one of the highest near-term priorities. Thanks to multi-year R&D programs, Laboratories and Universities in America and Europe have developed technical solutions to increase the LHC luminosity by bringing the Nb3Sn technology for magnets to production readiness. In...
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Qingjin XU (IHEP)31/05/2017, 16:40
IHEP (Beijing, China) is pursuing R&D of high field accelerator magnet technology for recently proposed CEPC-SPPC project, which will need thousands of all-HTS 12T (SPPC) to 24T (SPPC Upgrade) accelerator magnets in the next 20~40 years. A long-term R&D plan has been made aiming to realize the magnets in time. The conceptual design study of the all-HTS (Fe-based superconductor) & Nb3Sn+HTS 12T...
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Soren Prestemon (LBNL)01/06/2017, 10:30
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Alexander Zlobin (Fermilab)01/06/2017, 10:50
Fermilab is developing a 15 T Nb3Sn dipole demonstrator for a future very high energy pp collider as a part of the U.S. MDP Plan. The magnet design is based on optimized 60-mm aperture 4-layer shell-type coils and cold iron yoke 600 mm in diameter. The coils are graded between the inner and outer layers to maximize the performance and reduce the cost. Two mechanical structures – one, based on...
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Shlomo Caspi (Lawrence Berkeley National Lab. (US))01/06/2017, 11:10
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Ramesh Gupta (BNL)01/06/2017, 11:30
The common coil geometry offers a 2-in-1 conductor friendly block coil dipole design based on simple racetrack (mostly flat) coils with large bend radii. Significate progress has been worldwide since FCC2016 in various designs of 50 mm aperture high field 2-in-1 dipoles based on the common coil geometry. These include designs of (a) 16 T dipoles based entirely on Low Temperature...
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Daniel Schoerling (CERN)01/06/2017, 15:30
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Daniel Schoerling (CERN)01/06/2017, 15:50
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Amalia Ballarino (CERN)01/06/2017, 16:10