1. Cross-field demagnetization of stacks of tapes: 3D modeling and measurements
- Author
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Enric Pardo, Algirdas Baskys, Francesco Grilli, Bartek A. Glowacki, Anang Dadhich, Vicente Climente-Alarcon, Milan Kapolka, Kapolka, M [0000-0002-4932-2946], Pardo, E [0000-0002-6375-4227], Grilli, F [0000-0003-0108-7235], Glowacki, BA [0000-0003-2165-6378], Apollo - University of Cambridge Repository, Baskys, A [0000-0002-1875-8107], Climente-Alarcon, V [0000-0002-1273-8454], and Glowacki, B A [0000-0003-2165-6378]
- Subjects
Paper ,Materials science ,cond-mat.supr-con ,FOS: Physical sciences ,superconducting stacks ,Applied Physics (physics.app-ph) ,superconductors ,cross-field demagnetization ,01 natural sciences ,supermagnets ,3D modeling ,Superconductivity (cond-mat.supr-con) ,Magnetization ,Stack (abstract data type) ,Condensed Matter::Superconductivity ,0103 physical sciences ,Materials Chemistry ,ddc:530 ,Electrical and Electronic Engineering ,010306 general physics ,Anisotropy ,010302 applied physics ,Superconductivity ,Condensed matter physics ,Condensed Matter - Superconductivity ,Physics ,Demagnetizing field ,Metals and Alloys ,Physics - Applied Physics ,Condensed Matter Physics ,Magnetic field ,rotating machines ,modeling of high temperature superconductors ,Magnet ,Ceramics and Composites ,ReBCO coated conductors ,modeling of high temperature ,Focus on Numerical Modelling of High Temperature Superconductors 2020 ,physics.app-ph ,Current density - Abstract
Stacks of superconducting tapes can trap much higher magnetic fields than conventional magnets. This makes them very promising for motors and generators. However, ripple magnetic fields in these machines present a cross-field component that demagnetizes the stacks. At present, there is no quantitative agreement between measurements and modeling of cross-field demagnetization, mainly due to the need of a 3D model that takes the end effects and real micron-thick superconducting layer into account. This article presents 3D modeling and measurements of cross-field demagnetization in stacks of up to 5 tapes and initial magnetization modeling of stacks of up to 15 tapes. 3D modeling of the cross-field demagnetization explicitly shows that the critical current density, $J_c$, in the direction perpendicular to the tape surface does not play a role in cross-field demagnetization. When taking the measured anisotropic magnetic field dependence of $J_c$ into account, 3D calculations agree with measurements with less than 4 % deviation, while the error of 2D modeling is much higher. Then, our 3D numerical methods can realistically predict cross-field demagnetization. Due to the force-free configuration of part of the current density, J, in the stack, better agreement with experiments will probably require measuring the Jc anisotropy for the whole solid angle range, including $J$ parallel to the magnetic field., Comment: 36 pages, 20 figures
- Published
- 2020
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