Prototype REBCO Z1 and Z2 shim coils for ultra high-field

Prototype REBCO Z1 and Z2 shim coils for ultra high-field

Abstract We present promising results of novel high-temperature superconducting (HTS) shim coil prototypes that circumvent the size and strength limitation of our earlier innovative HTS shim concept based on 46-mm wide REBCO tape. The HTS shim coil is placed inside the HTS magnet, mainly for ultra-h...

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Main Authors: Dongkeun Park, Jiho Lee, Juan Bascuñán, Zhuyong Li, Yukikazu Iwasa
Format: Article
Language:English
Published: Nature Publishing Group 2020-12-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-020-78644-0
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spelling doaj-31d32175f3e14a029be68018cccb2fc92020-12-20T12:28:29ZengNature Publishing GroupScientific Reports2045-23222020-12-011011710.1038/s41598-020-78644-0Prototype REBCO Z1 and Z2 shim coils for ultra high-fieldDongkeun Park0Jiho Lee1Juan Bascuñán2Zhuyong Li3Yukikazu Iwasa4Francis Bitter Magnet Laboratory/Plasma Science and Fusion Center, Massachusetts Institute of TechnologyInstitute for Basic ScienceFrancis Bitter Magnet Laboratory/Plasma Science and Fusion Center, Massachusetts Institute of TechnologyDepartment of Electrical Engineering, Shanghai Jiao Tong UniversityFrancis Bitter Magnet Laboratory/Plasma Science and Fusion Center, Massachusetts Institute of TechnologyAbstract We present promising results of novel high-temperature superconducting (HTS) shim coil prototypes that circumvent the size and strength limitation of our earlier innovative HTS shim concept based on 46-mm wide REBCO tape. The HTS shim coil is placed inside the HTS magnet, mainly for ultra-high-field (> 1 GHz or 23.5 T) NMR magnets, and thus unaffected from the windings’ diamagnetic wall effects. One full-scale version will be applied to clean up Z1 and Z2 harmonic errors in the MIT 1.3-GHz high-resolution NMR magnet composed of an 835-MHz HTS insert, while another version for an MIT 1-GHz microcoil NMR magnet whose small-scale model we are currently building. The prototype sets were wound with a 2-pile, 1.03-mm wide, 0.30-mm thick REBCO conductor. Operated at 77 K, the Z1 shim set generated a 1st harmonic field strength of 179 kHz/cm at 70 A, while the Z2 shim set, composed of two pairs, Z21 and Z22, generated the 2nd harmonic field of 141 kHz/cm2 at 50 A. Together with discussion on technical challenges for this REBCO shim coil concept, we demonstrate its feasibility for the next generation of ultra-high-field (UHF) HTS NMR magnets.https://doi.org/10.1038/s41598-020-78644-0
collection DOAJ
language English
format Article
sources DOAJ
author Dongkeun Park
Jiho Lee
Juan Bascuñán
Zhuyong Li
Yukikazu Iwasa
spellingShingle Dongkeun Park
Jiho Lee
Juan Bascuñán
Zhuyong Li
Yukikazu Iwasa
Prototype REBCO Z1 and Z2 shim coils for ultra high-field
Scientific Reports
author_facet Dongkeun Park
Jiho Lee
Juan Bascuñán
Zhuyong Li
Yukikazu Iwasa
author_sort Dongkeun Park
title Prototype REBCO Z1 and Z2 shim coils for ultra high-field
title_short Prototype REBCO Z1 and Z2 shim coils for ultra high-field
title_full Prototype REBCO Z1 and Z2 shim coils for ultra high-field
title_fullStr Prototype REBCO Z1 and Z2 shim coils for ultra high-field
title_full_unstemmed Prototype REBCO Z1 and Z2 shim coils for ultra high-field
title_sort prototype rebco z1 and z2 shim coils for ultra high-field
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2020-12-01
description Abstract We present promising results of novel high-temperature superconducting (HTS) shim coil prototypes that circumvent the size and strength limitation of our earlier innovative HTS shim concept based on 46-mm wide REBCO tape. The HTS shim coil is placed inside the HTS magnet, mainly for ultra-high-field (> 1 GHz or 23.5 T) NMR magnets, and thus unaffected from the windings’ diamagnetic wall effects. One full-scale version will be applied to clean up Z1 and Z2 harmonic errors in the MIT 1.3-GHz high-resolution NMR magnet composed of an 835-MHz HTS insert, while another version for an MIT 1-GHz microcoil NMR magnet whose small-scale model we are currently building. The prototype sets were wound with a 2-pile, 1.03-mm wide, 0.30-mm thick REBCO conductor. Operated at 77 K, the Z1 shim set generated a 1st harmonic field strength of 179 kHz/cm at 70 A, while the Z2 shim set, composed of two pairs, Z21 and Z22, generated the 2nd harmonic field of 141 kHz/cm2 at 50 A. Together with discussion on technical challenges for this REBCO shim coil concept, we demonstrate its feasibility for the next generation of ultra-high-field (UHF) HTS NMR magnets.
url https://doi.org/10.1038/s41598-020-78644-0
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