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Paramagnetic Meissner effect of high-temperature granular superconductors: Interpretation by anisotropic and isotropic models

Journal Article · · Journal of Superconductivity
 [1]; ; ;  [2]
  1. Telecommunications Labs., Taiwan (China)
  2. National Chiao-Tung Univ., Taiwan (China)
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The field-cooled magnetization of high-{Tc} superconducting ceramics measured in low magnetic field exhibits the paramagnetic Meissner effect (PME), i.e., the diamagnetic signal initially increases with decrease in temperature but reaches a maximum at temperature T{sub d} and later decreases with decrease in temperature. Even in some samples the signal is ultimately able to transform inversely into a paramagnetic regime once the sample is cooled below a temperature T{sub p} as long as the applied field is sufficiently small. This PME has been observed in various high-{Tc} cuprates and is explained by disparate aspects. An anisotropic model, in which the granular superconductors are assumed to be ideally anisotropic, was first alternatively proposed in the present work so as to theoretically account for this effect. On the other hand, an isotropic model, suitable for granular superconductors with randomly oriented grains, was proposed to deal with the samples prepared by a conventional solid-state reaction method. The anomalous magnetization behavior in the present model was demonstrated to be the superposition of the diamagnetic signal, which occurs as a result of the intragranular shielding currents, over the paramagnetic one due to the induction of the intergranular component induced by these currents where the intergranular one behaved as the effective pinning centers. The PME was demonstrated by this model to exist parasitically in granular superconductors. This intergranular effect is therefore worthy of remark when evaluating the volume fraction of superconductivity for the samples from the Meissner signal, in particular, at a low magnetic field.

Sponsoring Organization:
USDOE
OSTI ID:
81614
Journal Information:
Journal of Superconductivity, Journal Name: Journal of Superconductivity Journal Issue: 1 Vol. 8; ISSN 0896-1107; ISSN JOUSEH
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
COPPER OXIDES
GRANULAR MATERIALS
HIGH-TC SUPERCONDUCTORS
MEISSNER-OCHSENFELD EFFECT
PARAMAGNETISM