Magnetic shielding up to 0.67 T at 77 K using a stack of high temperature superconducting tape annuli of 26 mm bore

Brialmont, Sébastien; Dular, Julien; Wera, Laurent; Fagnard, Jean-François; Vanderheyden, Benoît; Geuzaine, Christophe; Hahn, Seungyong; Patel, Anup; Vanderbemden, Philippe

doi:10.1088/1361-6668/acc981

Cited by 4 publications

(2 citation statements)

References 82 publications

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“…These tapes can be used to reduce the amplitude of an external field or to improve the homogeneity of the field component parallel to them [46,47]. Stacked tape annuli can also be created [48] and were recently shown to shield up to 0.67 T at 77 K [49]. The second method is to use coated conductors as naturally short-circuited 'eyeshaped' loops in which persistent currents are induced [50,51].…”

Section: Introductionmentioning

confidence: 99%

Improving the screening ability of high-temperature superconductors by combining disk-shaped bulks and closed-loop coated conductors

Rotheudt,

Brialmont,

Fagnard

et al. 2024

Supercond. Sci. Technol.

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In this work, we demonstrate experimentally the remarkable DC magnetic screening ability of hybrid superconducting screens. The configurations under investigation combine a 30 mm-diameter disk-shaped superconducting bulk, or another with a 10 mm-diameter hole, with different closed superconducting loops made from coated conductors. The loops are placed coaxially with the bulk. The bulk superconductors and the closed-loop coated conductors are made of GdBa2Cu3O7 and the experiments are performed in liquid nitrogen (77 K). The DC and inhomogeneous field to be screened is produced by a bespoke coil and reaches around 100 mT at the location of the superconducting bulk, which is much less than its full-penetration field. By mapping the magnitude of the flux density using a 3-axis cryogenic Hall probe, we show that such a hybrid superconducting screen allows the maximum shielding factor SF above the bulk to be almost doubled. For the best investigated hybrid configuration, the SF reaches ~45 at 2.7 mm above the bulk. In addition, the area of the spatial region for which less than half of the applied field remains (SF > 2) is roughly multiplied by 4 when compared to a situation involving only a disk-shaped bulk. In this work, this region corresponds to a 60 mm-diameter circle. The choice of the loop diameter is found to result from a trade-off between maximum SF and extension of the screened region. Finally, we detail why these hybrid configurations bring such improvements: the key point is that the flux lines generated by the source coil are diverted by the bulk towards a region where the closed-loop coated conductors can oppose the best to them.

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Section: Introductionmentioning

confidence: 99%

Improving the screening ability of high-temperature superconductors by combining disk-shaped bulks and closed-loop coated conductors

Rotheudt,

Brialmont,

Fagnard

et al. 2024

Supercond. Sci. Technol.

Self Cite

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“…Up to now, there are many joint-less HTS closed coils have been proposed, such as 2G HTS rings, joint-less stacked pancake (JSP) coils, bitter-like HTS magnet, and wind-and-flip coils [6,[8][9][10][11][12][13][14][15][16]. The above coils introduce a novel concept for superconducting magnets with closed-loop operation, which lead to a surge in joint-less coil research [8][9][10][11]17].…”

Section: Introductionmentioning

confidence: 99%

A novel joint-less coil: promising unprecedented magnetic field stability to solve the persistent current mode issue in 2G-HTS magnet application

Dong,

Huang,

Wang

et al. 2023

Supercond. Sci. Technol.

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Closed coils fabricated using second generation high temperature superconducting (2G-HTS) coated conductors (CCs) are promising for superconducting magnets, which operating in persistent current mode (PCM) such as magnetic resonance imaging (MRI) and nuclear magnetic resonance (NMR) systems. However, the fabrication and application of superconducting joints for 2G-HTS CCs still pose a significant challenge. This paper reports a PCM joint-less 2G-HTS coil for capturing magnetic fields, which is called ‘Four Pancake Coil (FPC)’. A novel winding method was developed to form four pancake structure and effectively solved the closed-loop problem of 2G-HTS magnets. Meanwhile, the FPCs generated a 70.4 mT central magnetic field at 77 K and lasted for 57 d with a magnetic field drift rate of only 0.065 ppm h−1, which can satisfy the requirements of MRI magnets. In addition to the closed-loop characteristics of the FPC, the stacked magnet also provides expandability and ease of maintenance exchange. These advantages make it highly promising for the development of closed-loop 2G-HTS magnets.

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Finite Element Models for Magnetic Shields Made of Stacked Superconducting Tape Annuli

Dular,

Brialmont,

Vanderbemden

et al. 2024

IEEE Trans. Appl. Supercond.

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Magnetic shielding up to 0.67 T at 77 K using a stack of high temperature superconducting tape annuli of 26 mm bore

Cited by 4 publications

References 82 publications

Improving the screening ability of high-temperature superconductors by combining disk-shaped bulks and closed-loop coated conductors

Improving the screening ability of high-temperature superconductors by combining disk-shaped bulks and closed-loop coated conductors

A novel joint-less coil: promising unprecedented magnetic field stability to solve the persistent current mode issue in 2G-HTS magnet application

Finite Element Models for Magnetic Shields Made of Stacked Superconducting Tape Annuli

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