Field penetration into hard type-II superconducting tubes: effects of a cap, a non-superconducting joint, and non-uniform superconducting properties

Denis, Samuel; Dirickx, Michel; Vanderbemden, Philippe; Ausloos, Marcel; Vanderheyden, Benoît

doi:10.1088/0953-2048/20/5/002

Cited by 25 publications

(28 citation statements)

References 25 publications

(77 reference statements)

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“…Above , the shielding currents cannot prevent the magnetic field from entering in the internal volume of the cylinder and the internal induction increases up to some value . On reversal of the applied magnetic field starting from the maximum value , the internal magnetic flux density remains constant until a value that is called is reached and then it follows hysteretic curve similar to what can be expected for an irreversible type-II superconductor [1], [2], [6].…”

Section: A Hysteresis and Determination Of Parametersmentioning

confidence: 59%

“…cooling with liquid nitrogen at 77 K), high-temperature superconductors (HTS) can compete with soft ferromagnetic materials, both in terms of shielding factor (ratio of the applied field over the magnetic field inside the shield) and of threshold induction , i.e. the maximum induction that can be strongly attenuated by the shield [1], [2]. Manuscript A number of results can be found in the literature on the magnetic shielding properties of bulk polycrystalline tubes [5], [6], [8].…”

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confidence: 99%

“…Manuscript A number of results can be found in the literature on the magnetic shielding properties of bulk polycrystalline tubes [5], [6], [8]. In our previous work in particular [1], [2], we have studied the magnetic shielding of a Bi-2223 polycrystalline tube subjected to an axial field. Experimental data have been confronted with a computer modeling based on the numerical model developed by Brandt [10].…”

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confidence: 99%

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DC and AC Shielding Properties of Bulk High-Tc Superconducting Tubes

Fagnard

Denis

Lousberg

et al. 2009

IEEE Trans. Appl. Supercond.

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Abstract-We have studied numerically and experimentally the magnetic flux penetration in highsuperconducting tube subjected to a uniform magnetic field parallel to its long axis. This study is carried in view of designing low-frequency magnetic shields by exploiting the diamagnetic properties of high-superconducting ceramics. We have measured the field attenuation for applied magnetic fields in the frequency range 5 mHz-0.1 Hz by Hall probe measurements and at audio frequencies using a sensing coil. A simple 1D analysis using the Kim critical state model was found to be able to reproduce the experimental data satisfactorily. We have also determined the phase shift between the internal and the applied field both experimentally and numerically. Finally, we have studied the sweep rate dependence of the magnetic shielding properties, using data recorded either at several constant sweep rates d d or at several AC fields of various amplitudes and frequencies. Both methods agree with each other and lead to a -value of the n law equal to 40 at 77 K.

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Section: A Hysteresis and Determination Of Parametersmentioning

confidence: 59%

mentioning

confidence: 99%

mentioning

confidence: 99%

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DC and AC Shielding Properties of Bulk High-Tc Superconducting Tubes

Fagnard

Denis

Lousberg

et al. 2009

IEEE Trans. Appl. Supercond.

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“…These structures have promising applications in bulk HTS motors. 3) Type-II superconducting tubes are able to shield lowfrequency magnetic fields in a more efficient way than a ferromagnetic cylinder would do [5], [6]. The axial and transverse magnetic shielding properties of HTS cylinders may even be improved by covering the HTS tube with a ferromagnetic sheath [19]- [24].…”

Section: ) An Increase In the Electrical Transport Abilities In Htsmentioning

confidence: 99%

“…At the macroscopic scale, superconductors and ferromagnets also exhibit competing magnetic properties: In a given magnetic environment, the superconductor tends to expel the magnetic field lines from its volume by developing induced supercurrents [4]- [6]. By contrast, the ferromagnet, whose magnetic domains align with the external field, tends to concentrate the field lines inside its volume [7].…”

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confidence: 99%

Numerical Study of the Shielding Properties of Macroscopic Hybrid Ferromagnetic/Superconductor Hollow Cylinders

Lousberg

Fagnard

Ausloos

et al. 2010

IEEE Trans. Appl. Supercond.

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Abstract-We study the magnetic shielding properties of hybrid ferromagnetic/superconductor (F/S) structures consisting of two coaxial cylinders, with one of each material. We use an axisymmetric finite-element model in which the electrical properties of the superconducting tube are modeled by a nonlinear E-J power law with a magnetic-field-dependent critical current density whereas the magnetic properties of the ferromagnetic material take saturation into account. We study and compare the penetration of a uniform axial magnetic field in two cases: 1) a ferromagnetic tube placed inside a larger superconducting tube (Ferro-In configuration) and 2) a ferromagnetic tube placed outside the superconducting one (Ferro-Out configuration). In both cases, we assess how the ferromagnetic tube improves the shielding properties of the sole superconducting tube. The influence of the geometrical parameters of the ferromagnetic tube is also studied: It is shown that, upon an optimal choice of the geometrical parameters, the range of magnetic fields that are efficiently shielded by the hightemperature superconductor tube alone can be increased by a factor of up to 7 (2) in a Ferro-Out (Ferro-In) configuration. The optimal configuration uses a 1020 carbon steel with a thickness of 2 mm and a height that is half that of the superconducting cylinder (80 mm).Index Terms-Ferromagnetic/high-temperature superconductors (HTSs) hybrid structure, finite element, magnetic shield.

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