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A novel design of Thermally Actuated Magnetization Flux pump for high temperature superconducting bulks

Yan, Y and Hsu, C and Hong, Z and Xian, W and Yuan, W and Coombs, TA (2011) A novel design of Thermally Actuated Magnetization Flux pump for high temperature superconducting bulks. IEEE Transactions on Applied Superconductivity, 21. pp. 1568-1571. ISSN 1051-8223

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Abstract

High temperature superconductors, such as melt-processed YBCO bulks, have great advantages on trapping strong magnetic fields in liquid nitrogen. To enable them to function well, there are some traditional ways of magnetizing them, in which the YBCO bulks are magnetized instantly under a very strong source of magnetic field. These ways would consume great amounts of power to make the superconductors trap as much field as possible. Thermally Actuated Magnetization (TAM) Flux pump has been proved a perfect substitution for these expensive methods by using a relatively small magnet as the source. In this way, the field is developed gradually over many pulses. Unlike conventional flux pumping ways, the TAM does not drive the superconductor normal during the process of magnetization. In former experiments for the flux pump, some fundamental tests were done. In this paper, the experiment system is advanced to a new level with better temperature control to the thermal waves moving in the Gadolinium and with less air gap for the flux lines sweeping through the superconductor. This experiment system F leads to a stronger accumulation of the magnetic field trapped in the YBCO bulk. We also tried different ways of sending the thermal waves and found out that the pumping effect is closely related to the power of the heaters and the on and off time. © 2010 IEEE.

Item Type: Article
Uncontrolled Keywords: Flux jump Magnetization processes Superconducting magnets Thermal actuate
Subjects: UNSPECIFIED
Divisions: Div B > Electronics, Power & Energy Conversion
Depositing User: Cron Job
Date Deposited: 07 Mar 2014 12:16
Last Modified: 08 Dec 2014 02:22
DOI: 10.1109/TASC.2010.2087737