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dc.contributor.authorTurkoz, M. B.
dc.contributor.authorNezir, S.
dc.contributor.authorVarilci, A.
dc.contributor.authorYildirim, G.
dc.contributor.authorAkdogan, M.
dc.contributor.authorTerzioglu, C.
dc.description.abstractThis study discusses the change of the flux pinning mechanism, electrical and superconducting properties of Lu added YBa2Cu3O7-delta bulk superconducting ceramics prepared by the liquid ammonium nitrate and derivatives at 970 A degrees C for 20 h by means of magnetotransport measurements conducted in the magnetic filed range from 0 to 6 kG. The critical transition (both and) temperatures, residual resistivity (rho(0)), residual resistivity ratios (RRR), irreversibility fields (mu H-0(irr)), upper critical fields (mu (0) H (c2) ), penetration depths (lambda) and coherence lengths (xi) of the YBa2LuxCu3O7-delta materials are evaluated from the magnetoresistivity curves. The resistivity criteria of 10 and 90 % normal-state resistivity serve as the important parameters for the description of the irreversibility and upper critical fields, respectively. Moreover, rho (0) , mu (0) H (irr) (0) and mu (0) H (c2) (0) values of the bulk samples are theoretically calculated using the extrapolation method at absolute zero temperature (T = 0 K). Likewise, the xi and lambda values are inferred from mu (0) H (irr) (0) and mu (0) H (c2) (0) values obtained, respectively. At the same time, activation energies of the samples studied are determined from thermally activated flux creep (TAFC) model. The results obtained indicate that the pinning mechanism, electrical and superconducting properties of the samples enhance with the increment of the Lu addition up to level of 0.1 wt% beyond which these properties start to deteriorate systematically and in fact reach the local minimum points for the sample doped with 0.9 wt% Lu due to the degradation of pinning ability, density, crystallinity and connectivity between grains. Similarly, the presence of the magnetic field results in the reduction of these properties as a consequence of the decrement in the flux pinning in the samples prepared. Namely, the maximum of 94.6 K and of 92.5 K are observed for the sample doped with 0.1 wt% Lu whereas the minimum temperature values are obtained to be about 71.2 and 50.3 K for the sample doped with 0.9 wt% Lu. In fact, the value decreases to 20.5 K with the increment in the applied magnetic field up to 6 kG. Besides, the flux pinning energies of the samples decrease with ascending applied magnetic field. The pure sample has the flux pinning energy of 15,211 K at zero field while the maximum and minimum values are found to be about 16,722 K and 2,058 K for the samples added with 0.1 and 0.9 wt% Lu, respectively. The U (0) of 158 K at 6 kG applied magnetic field is obtained for the latter sample, showing that this sample exhibits much weaker flux pinning, lesser crystallinity and connectivity between grains compared to the other samples produced as a result of the stronger pair-breaking mechanism. The dissipation mechanism is also discussed by means of the magnetic field dependence of the activation energy.en_US
dc.subject[Anahtar Kelime Yok]en_US
dc.titleExperimental and theoretical approaches on magnetoresistivity of Lu-Doped Y-123 superconducting ceramicsen_US
dc.relation.publicationcategoryMakale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanıen_US
dc.relation.ispartofJournal Of Materials Science-Materials In Electronicsen_US

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