Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/915
Title: Dissipative flux motion and flux flow resistivity analysis in La-Doped (Bi, Pb)-2212 superconducting ceramics
Authors: Vinu, S
Sarun, P M
Shabna, R
Syamaprasad, U
Keywords: Vortex-glass superconductivity
Delta single-crystals
Issue Date: 2011
Publisher: Wiley
Citation: Journal of the American Ceramic Society 94(5):1634-1638;May 2011
Abstract: The dissipation below Tc and the thermally activated energy are analyzed in detail for La-doped (Bi, Pb)-2212 superconductor as a typical case with two analytical methods. The first one is a conventional and generally used Arrhenius method, and the second, a consistent description of vortex glass theory. In the second method, a modified vortex glass correlation length is introduced to give the consistent description of the field and temperature dependence of the resistivity in the vortex liquid regime and this method takes into account both thermal energy k(B)T and the characteristic mean pinning energy U(0)(B, T) for the analysis of the resistivity data. The results are parameterized in the frame work of flux flow, and the largest activation energy is obtained for the optimally doped (Bi, Pb)-2212. The scaling behavior between the normalized resistivity, rho(B, T)/rho(n), and the scaled temperature, T(T(c) - T(g))/T(g)(T(c) - T)-1, in the regime of T(g) < T <= T(c) is a striking evidence for the applicability of the second method for the analysis of thermally activated flux flow resistivity of other high-temperature superconductors also.
URI: http://ir.niist.res.in:8080/jspui/handle/123456789/915
ISSN: 0002-7820
Appears in Collections:2011

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