Current-Voltage Characteristics in a Superconducting Bi-2223 Tape in the Range of Very Low Electric Field


Title, author, abstract

title
Current-Voltage Characteristics in a Superconducting Bi-2223 Tape in the Range of Very Low Electric Field
authors
Edmund S. Otabe1, Takeshi Kodama1, Mitsuhiro Fukuda1, Teruo Matsushita1,2, Kikuo Itoh3
1Department of Computer Science and Electronics, Kyushu Institute of Technology,
680--4 Kawazu, Iizuka 820-8502, Japan
2Graduate School of Information Science and Electrical Engineering, Kyushu University,
6--10--1 Hakozaki, Higashi-ku, Fukuoka 812--8581, Japan
3National Research Institute for Metals,
Sakura 3--13, Tsukuba, Ibaraki 305--0003, Japan
abstract
Current-voltage characteristics in the range of very low electric field were analyzed from a relaxation of the magnetization using a SQUID magnetometer in a superconducting Bi-2223 tape. It was found that the observed current-voltage characteristics in this range were scaled well as predicted by the vortex glass-liquid transition theory. However, the obtained transition field was much lower than that obtained from a scaling in the higher electric field range. At the same time, the dynamic critical index, $z$, was much larger than usual values. Hence, it is concluded that these parameters are not uniquely determined independently of the level of electric field. The experimental result was compared with the theoretical analysis using the flux creep-flow theory in which the distribution of the effective flux pinning strength was taken into account. It was found that the theoretical result explains approximately the observed result. This shows that the essential mechanism which governs the transport property in the superconducting tape is the flux pinning.
Original paper appears in
IEEE Transactions on Applied Superconductivity ASC 2000, 2000
paper (PDF format, 355Kbyte) / poster (PDF format, 408Kbyte)