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W3097282912 abstract "Abstract Superconducting stacks and bulks can act as very strong magnets (more than 17 T), but they lose their magnetization in the presence of alternating (or ripple) transverse magnetic fields, due to the dynamic magneto-resistance. This demagnetization is a major concern for applications requiring high run times, such as motors and generators, where ripple fields are of high amplitude and frequency. We have developed a numerical model based on dynamic magneto-resistance that is much faster than the conventional Power-Law-resistivity model, enabling us to simulate high number of cycles with the same accuracy. We simulate demagnetization behavior of superconducting stacks made of 10–100 tapes for up to 2 million cycles of applied ripple field. We found that for high number of cycles, the trapped field reaches non-zero stationary values for both superconducting bulks and stacks; as long as the ripple field amplitudes are below the parallel penetration field, being determined by the penetration field for a single tape in stacks. Bulks keep substantial stationary values for much higher ripple field amplitudes than the stacks, being relevant for high number of cycles. However, for low number of cycles, stacks lose much less magnetization as compared to bulks." @default.
W3097282912 created "2020-11-09" @default.
W3097282912 creator A5025674325 @default.
W3097282912 creator A5087656105 @default.
W3097282912 date "2020-11-06" @default.
W3097282912 modified "2023-10-16" @default.
W3097282912 title "Modeling cross-field demagnetization of superconducting stacks and bulks for up to 100 tapes and 2 million cycles" @default.
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W3097282912 doi "https://doi.org/10.1038/s41598-020-76221-z" @default.
W3097282912 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7648838" @default.
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