Reliable 4.8 T trapped magnetic fields in Gd–Ba–Cu–O bulk superconductors using pulsed field magnetization
Difan Zhou, Jan Srpčič, Kaiyuan Huang, Mark Ainslie, Yunhua Shi, A R Dennis, Martin Boll, Mykhaylo Filipenko, D A Cardwell, J H Durrell
Abstract
Abstract A robust and reliable in-situ magnetization method is essential for exploiting the outstanding magnetic flux trapping ability of bulk superconductors in practical applications. We report a 4.8 T peak trapped magnetic field, B T , achieved at 30 K in a 36 mm diameter GdBa 2 Cu 3 O 7- δ –Ag bulk superconductor using pulsed field magnetization (PFM). To realize this, we have developed a reliable two-step multi-pulse PFM process based on understanding and exploiting the avalanche-like flux jump phenomenon observed in these materials. The magnitude of the applied pulsed magnetic field ( B a ) necessary to trap 4.8 T was merely 5.29 T, corresponding to a remarkable magnetization efficiency ( B T / B a ) of 90%.