Cable Design and Development for the High-Temperature Superconductor Cable Test Facility Magnet

A large bore "High-Temperature Superconductor Cable Test Facility Magnet" for testing advanced cables and inserts in high transverse field is in its design phase. This magnet will be the core component of a facility for developing conductors and accelerator magnets operating above 15 T, an...

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Veröffentlicht in:	IEEE transactions on applied superconductivity 2021-10, Vol.31 (7), p.1-5
Hauptverfasser:	Pong, Ian, Hafalia, Aurelio, Higley, Hugh, Lee, Elizabeth, Lin, Andy, Naus, Michael, Perez, Carlos, Prestemon, Soren, Sabbi, GianLuca, Hopkins, Simon, Ballarino, Amalia, Bottura, Luca
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Sprache:	eng
Schlagworte:	Accelerator magnets Annealing Cables Coils Coils (windings) Conductors Design parameters Dipoles Fabrication FCC fusion high energy physics High temperature superconductors Inserts Laboratories Magnetic confinement Magnets Nb_3_Sn Superconducting cables Superconducting magnets Test facilities Wire Wires
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container_title	IEEE transactions on applied superconductivity
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description	A large bore "High-Temperature Superconductor Cable Test Facility Magnet" for testing advanced cables and inserts in high transverse field is in its design phase. This magnet will be the core component of a facility for developing conductors and accelerator magnets operating above 15 T, an enabling technology for next-generation fusion devices using magnetic confinement of plasma and for future energy frontier colliders. The procurement of Nb 3 Sn conductor, fabrication of cables, winding of coils, and assembly of the dipole magnet will be done at Lawrence Berkeley National Laboratory (LBNL) and the test pit and cryostat will be constructed at Fermi National Accelerator Laboratory. This article will present the conductor element of the LBNL project, specifically cable design parameters (based on the Bruker OST RRP^{\bigcirc \!\!\!\! {\hbox{R}}} Nb 3 Sn superconducting wire) and the development phase cable fabrication experience. Challenges of the cable fabrication will be discussed. The wire and cable planned for this magnet are similar to those under study for the Future Circular Collider and other large facility magnets. The successful fabrication of the development cable has positive implications for these other projects.
doi_str_mv	10.1109/TASC.2021.3094410
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This magnet will be the core component of a facility for developing conductors and accelerator magnets operating above 15 T, an enabling technology for next-generation fusion devices using magnetic confinement of plasma and for future energy frontier colliders. The procurement of Nb 3 Sn conductor, fabrication of cables, winding of coils, and assembly of the dipole magnet will be done at Lawrence Berkeley National Laboratory (LBNL) and the test pit and cryostat will be constructed at Fermi National Accelerator Laboratory. This article will present the conductor element of the LBNL project, specifically cable design parameters (based on the Bruker OST RRP<inline-formula><tex-math notation="LaTeX">^{\bigcirc \!\!\!\! {\hbox{R}}}</tex-math></inline-formula> Nb 3 Sn superconducting wire) and the development phase cable fabrication experience. Challenges of the cable fabrication will be discussed. The wire and cable planned for this magnet are similar to those under study for the Future Circular Collider and other large facility magnets. The successful fabrication of the development cable has positive implications for these other projects.</description><identifier>ISSN: 1051-8223</identifier><identifier>EISSN: 1558-2515</identifier><identifier>DOI: 10.1109/TASC.2021.3094410</identifier><identifier>CODEN: ITASE9</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Accelerator magnets ; Annealing ; Cables ; Coils ; Coils (windings) ; Conductors ; Design parameters ; Dipoles ; Fabrication ; FCC ; fusion ; high energy physics ; High temperature superconductors ; Inserts ; Laboratories ; Magnetic confinement ; Magnets ; Nb_3_Sn ; Superconducting cables ; Superconducting magnets ; Test facilities ; Wire ; Wires</subject><ispartof>IEEE transactions on applied superconductivity, 2021-10, Vol.31 (7), p.1-5</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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This magnet will be the core component of a facility for developing conductors and accelerator magnets operating above 15 T, an enabling technology for next-generation fusion devices using magnetic confinement of plasma and for future energy frontier colliders. The procurement of Nb 3 Sn conductor, fabrication of cables, winding of coils, and assembly of the dipole magnet will be done at Lawrence Berkeley National Laboratory (LBNL) and the test pit and cryostat will be constructed at Fermi National Accelerator Laboratory. This article will present the conductor element of the LBNL project, specifically cable design parameters (based on the Bruker OST RRP<inline-formula><tex-math notation="LaTeX">^{\bigcirc \!\!\!\! {\hbox{R}}}</tex-math></inline-formula> Nb 3 Sn superconducting wire) and the development phase cable fabrication experience. Challenges of the cable fabrication will be discussed. The wire and cable planned for this magnet are similar to those under study for the Future Circular Collider and other large facility magnets. The successful fabrication of the development cable has positive implications for these other projects.</description><subject>Accelerator magnets</subject><subject>Annealing</subject><subject>Cables</subject><subject>Coils</subject><subject>Coils (windings)</subject><subject>Conductors</subject><subject>Design parameters</subject><subject>Dipoles</subject><subject>Fabrication</subject><subject>FCC</subject><subject>fusion</subject><subject>high energy physics</subject><subject>High temperature superconductors</subject><subject>Inserts</subject><subject>Laboratories</subject><subject>Magnetic confinement</subject><subject>Magnets</subject><subject>Nb_3_Sn</subject><subject>Superconducting cables</subject><subject>Superconducting magnets</subject><subject>Test facilities</subject><subject>Wire</subject><subject>Wires</subject><issn>1051-8223</issn><issn>1558-2515</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNo9kMtOwzAQRS0EEuXxAYhNJNYpHjsm8bIKlCIVsWhYW449aVOlSXAcpP49rlKxmrs4d2Z0CHkAOgeg8rlYbPI5owzmnMokAXpBZiBEFjMB4jJkKiDOGOPX5GYY9pRCkiViRlSuywajVxzqbRvp1ob4i03XH7D1UdW5yO8wWtXbXVzgoUen_egw2owhmq61o_GBmZYUOPhoqU3d1P4Yfepti_6OXFW6GfD-PG_J9_KtyFfx-uv9I1-sY8NT5mNeWctEVabcSA7WJKl9AStpCqKEMkMGpa4sxUBLxgE56pKCTmlWpYkpJb8lT9Pe3nU_Y3hE7bvRteGkYiIVwGnGRaBgoozrhsFhpXpXH7Q7KqDq5FGdPKqTR3X2GDqPU6dGxH9eJhkwKvkfS_Nu4g</recordid><startdate>20211001</startdate><enddate>20211001</enddate><creator>Pong, Ian</creator><creator>Hafalia, Aurelio</creator><creator>Higley, Hugh</creator><creator>Lee, Elizabeth</creator><creator>Lin, Andy</creator><creator>Naus, Michael</creator><creator>Perez, Carlos</creator><creator>Prestemon, Soren</creator><creator>Sabbi, GianLuca</creator><creator>Hopkins, Simon</creator><creator>Ballarino, Amalia</creator><creator>Bottura, Luca</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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This magnet will be the core component of a facility for developing conductors and accelerator magnets operating above 15 T, an enabling technology for next-generation fusion devices using magnetic confinement of plasma and for future energy frontier colliders. The procurement of Nb 3 Sn conductor, fabrication of cables, winding of coils, and assembly of the dipole magnet will be done at Lawrence Berkeley National Laboratory (LBNL) and the test pit and cryostat will be constructed at Fermi National Accelerator Laboratory. This article will present the conductor element of the LBNL project, specifically cable design parameters (based on the Bruker OST RRP<inline-formula><tex-math notation="LaTeX">^{\bigcirc \!\!\!\! {\hbox{R}}}</tex-math></inline-formula> Nb 3 Sn superconducting wire) and the development phase cable fabrication experience. Challenges of the cable fabrication will be discussed. 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subjects	Accelerator magnets Annealing Cables Coils Coils (windings) Conductors Design parameters Dipoles Fabrication FCC fusion high energy physics High temperature superconductors Inserts Laboratories Magnetic confinement Magnets Nb_3_Sn Superconducting cables Superconducting magnets Test facilities Wire Wires
title	Cable Design and Development for the High-Temperature Superconductor Cable Test Facility Magnet
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