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Improved pulsed field magnetisation in MgB<sub>2</sub> trapped-field magnets

Dominic A. Moseley, Guillaume Matthews, Difan Zhou, Vito Cientanni, Y. K. Tsui, Mark Ainslie, Susannah Speller, J H Durrell

2021Superconductor Science and Technology19 citationsDOIOpen Access PDF

Abstract

Abstract Bulk superconductors can act as trapped-field magnets with the potential to be used for many applications such as portable medical magnet systems and rotating machines. Maximising the trapped field, particularly for practical magnetisation techniques such as pulsed field magnetisation (PFM), still remains a challenge. PFM is a dynamic process in which the magnetic field is driven into a superconducting bulk over milliseconds. This flux motion causes heating and a complex interplay between the magnetic and thermal properties. In this work, the local flux density during PFM in a MgB 2 bulk superconductor has been studied. We find that improving the cooling architecture increases the flux trapping capabilities and alters the flux motion during PFM. These improvements lead to the largest trapped field (0.95 T) for a single MgB 2 bulk sample magnetised by a solenoidal pulsed field magnet. The findings illustrate the fundamental role bulk cooling plays during PFM.

Topics & Concepts

Solenoidal vector fieldMagnetizationMagnetCondensed matter physicsField (mathematics)Materials scienceSuperconductivityFlux (metallurgy)Magnetic fieldFlux pinningMagnetic fluxPhysicsHigh-temperature superconductivityMechanicsVector fieldMathematicsMetallurgyQuantum mechanicsPure mathematicsSuperconductivity in MgB2 and AlloysPhysics of Superconductivity and MagnetismIron-based superconductors research
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