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28 results on '"Giunchi G"'

1. Flux jumps in high-J c MgB2 bulks during pulsed field magnetization

Author

Fujishiro, H, Mochizuki, H, Naito, T, Ainslie, MD, Giunchi, G, Ainslie, Mark [0000-0003-0466-3680], and Apollo - University of Cambridge Repository

Subjects
pulsed field magnetization, critical thickness, MgB2, numerical simulation, flux jump, temperature rise
Abstract

Pulsed field magnetization (PFM) of a high-J_c MgB_2 bulk disk has been investigated at 20 K, in which flux jumps frequently occur for high pulsed fields. Using a numerical simulation of the PFM procedure, we estimated the time dependence of the local magnetic field and temperature during PFM. We analyzed the electromagnetic and thermal instability of the high-J_c MgB_2 bulk to avoid flux jumps using the time dependence of the critical thickness, d_c(t), which shows the upper safety thickness to stabilize the superconductor magnetically, and the minimum propagation zone length, l_m(t), to obtain dynamical stability. The values of d_c(t) and l_m(t) change along the thermally-stabilized direction with increasing temperature below the critical temperature, T_c. However, the flux jump can be qualitatively understood by the local temperature, T(t), which exceeds T_c in the bulk. Finally, possible solutions to avoid flux jumps in high-J_c MgB_2 bulks are discussed.

Published
2016

18. Magnetic lenses using different MgB2 bulk superconductors.

Author

Zhang, Z. Y., Choi, S., Matsumoto, S., Teranishi, R., Giunchi, G., Albisetti, A Figini, and Kiyoshi, T.

Subjects
MAGNETIC lenses, MAGNESIUM diboride, SUPERCONDUCTORS, MAGNETIC fields, DIAMAGNETISM, MAGNETIC flux, MICROSTRUCTURE, ELECTRONIC amplifiers
Abstract

A magnetic lens allows the concentration of magnetic fields using the diamagnetism of superconductors. The important features of the magnetic lens are a tapered inner diameter from which the magnetic flux is extruded and a slit to suppress the circumference current that shields the magnetic flux. This concept was experimentally confirmed through the use of GdBaCuO bulks and a stack of NbTi/Nb/Cu sheets. We refer to this arrangement as a magnetic lens. The Mg-reactive liquid infiltration (Mg-RLI) process developed by Edison SpA is suitable for the production of large and high-density MgB2 bulks. Three MgB2 bulk magnetic lenses, each with a different microstructure, were fabricated following the Mg-RLI process. The properties of the MgB2 magnetic lenses were measured in a cryocooler system as well as in liquid helium. The results confirmed that the MgB2 bulk magnetic lenses could concentrate a magnetic field and that their field concentration properties were greatly affected by the temperature and the external field. In addition, the microstructure of the MgB2 bulk also had an influence on the magnetic properties at different external fields. The results indicated that the MgB2 lens might be utilized as a field amplifier in intermediate fields. [ABSTRACT FROM AUTHOR]

Published
2012
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