2020
DOI: 10.3390/instruments4020017
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Superconducting Accelerator Magnets Based on High-Temperature Superconducting Bi-2212 Round Wires

Abstract: Superconducting magnets are an invaluable tool for scientific discovery, energy research, and medical diagnosis. To date, virtually all superconducting magnets have been made from two Nb-based low-temperature superconductors (Nb-Ti with a superconducting transition temperature Tc of 9.2 K and Nb3Sn with a Tc of 18.3 K). The 8.33 T Nb-Ti accelerator dipole magnets of the large hadron collider (LHC) at CERN enabled the discovery of the Higgs Boson and the ongoing search for physics beyond the standard model of h… Show more

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Cited by 38 publications
(28 citation statements)
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“…Km-length quantities of Bi2212 round wires have been commercially produced since the 1990s. The critical current density J c and the engineering wire current density J e at 20 T and 4.2 K of the round wire increased from 1500 and 400 A/mm 2 , or less in the 2000s, respectively, to the J e values shown in Figure 7 [10]. The range of the engineering wire current density for the wire used in the Rutherford cable provided by LBNL at 5 T is shown in the plot by the red double arrow, which is consistent with the parameters of the 2015 generation Bi2212 wire.…”
Section: Wire and Cable Parameters And Technologymentioning
confidence: 86%
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“…Km-length quantities of Bi2212 round wires have been commercially produced since the 1990s. The critical current density J c and the engineering wire current density J e at 20 T and 4.2 K of the round wire increased from 1500 and 400 A/mm 2 , or less in the 2000s, respectively, to the J e values shown in Figure 7 [10]. The range of the engineering wire current density for the wire used in the Rutherford cable provided by LBNL at 5 T is shown in the plot by the red double arrow, which is consistent with the parameters of the 2015 generation Bi2212 wire.…”
Section: Wire and Cable Parameters And Technologymentioning
confidence: 86%
“…The design concept of the Bi2212 insert is based on a two-layer cos-theta coil with a stress management concept which was developed at Fermilab for high-field large-aperture Nb 3 Sn accelerator magnets [6]. The coil uses a Rutherford cable with rectangular cross-section 7.8 mm wide and 1.44 mm thick, wrapped with 0.15 mm thick insulation [10].…”
Section: D Magnetic Design and Parametersmentioning
confidence: 99%
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