Trapped Fields >1 T in a Bulk Superconducting Ring by Pulsed Field Magnetization

Autor:	Tsui, Y, Moseley, DA, Dennis, AR, Shi, YH, Beck, MR, Cientanni, V, Cardwell, DA, Durrell, JH, Ainslie, MD
Přispěvatelé:	Tsui, Y [0000-0003-1759-0951], Moseley, DA [0000-0001-7673-0024], Shi, YH [0000-0003-4240-5543], Beck, MR [0000-0003-4476-3803], Cientanni, V [0000-0001-6621-2733], Cardwell, DA [0000-0002-2020-2131], Durrell, JH [0000-0003-0712-3102], Ainslie, MD [0000-0003-0466-3680], Apollo - University of Cambridge Repository
Rok vydání:	2022
Předmět:	pulsed field magnetization Magnetic field measurement Heating systems Condensed Matter Physics Magnetization Electronic Optical and Magnetic Materials Magnetic resonance imaging bulk superconducting rings high-temperature superconductivity multi-pulse stepwise cooling High-temperature superconductors trapped field magnets Superconducting magnets waveform control Electrical and Electronic Engineering Magnetic flux Bulk superconductors
Zdroj:	IEEE Transactions on Applied Superconductivity. 32:1-5
ISSN:	2378-7074 1051-8223
Popis:	One potential application of magnetized RE-Ba-Cu-O (where RE = rare earth or Y) bulk superconductors is as a high-field alternative to conventional permanent magnets in desktop NMR and MRI systems. Pulsed field magnetization (PFM) is one of the most promising practical methods of magnetizing such bulks. However, the trapped fields obtained by PFM are much lower than those obtained using quasi-static methods like field-cooling magnetization (FCM) due to heating during PFM. Furthermore, bulk superconducting rings have proved more difficult to magnetize via PFM than discs. The reported trapped fields in single bulk superconducting rings magnetized by PFM are less than 0.35 T at the centre of the bore due to thermomagnetic instabilities. In this work, systematic PFM measurements on a bulk Gd-Ba-Cu-O ring were carried out and a trapped field of 1.3 T at 55 K was achieved using a multi-pulse, stepwise cooling (MPSC) method. In the MPSC method, a sequence of pulsed fields is used to magnetize the ring bulk. The pulsed field is increased in small increments and the sample temperature is decreased sequentially. Consequently, as some field is already trapped after the first pulse, the motion of the flux for subsequent pulses will be reduced, leading to less heat generated in the bulk sample. This greatly improves the thermomagnetic stability of the PFM process, enabling larger trapped fields.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::1fe25f512698d419e2b8e81789188ea6 https://doi.org/10.1109/tasc.2022.3160661 Zobrazit plný text záznamu