AC losses in a finite Z stack using an anisotropic homogeneous-medium approximation

• Published in: Superconductor science & technology Vol. 20; no. 12; pp. 1130 - 1139
• Main Authors: Clem, John R, Claassen, J H, Mawatari, Yasunori
• Format: Journal Article
• Language: English
• Published: United States IOP Publishing 01.12.2007
• Subjects: AC LOSSES; APPROXIMATIONS; CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY; PHYSICS
• ISSN: 0953-2048; 1361-6668
• DOI: 10.1088/0953-2048/20/12/008

A finite stack of thin superconducting tapes, all carrying a fixed current I, can be approximated by an anisotropic superconducting bar with critical current density Jc = Ic/2aD, where Ic is the critical current of each tape, 2a is the tape width, and D is the tape-to-tape periodicity. The current density J must obey the constraint , where the tapes lie parallel to the x axis and are stacked along the z axis. We suppose that Jc is independent of field (Bean approximation) and look for a solution to the critical state for arbitrary height 2b of the stack. For c < |x| < a we have J = Jc, and for |x| < c the critical state requires that Bz = 0. We show that this implies in the central region. Setting c as a constant (independent of z) results in field profiles remarkably close to the desired one (Bz = 0 for |x| < c) as long as the aspect ratio b/a is not too small. We evaluate various criteria for choosing c, and we show that the calculated hysteretic losses depend only weakly on how c is chosen. We argue that for small D/a the anisotropic homogeneous-medium approximation gives a reasonably accurate estimate of the ac losses in a finite Z stack. The results for a Z stack can be used to calculate the transport losses in a pancake coil wound with superconducting tape.