Improvement of the intergranular pinning energy in uniaxially compacting (Bi -Pb )2Sr2Ca2Cu3O10+δ ceramic samples

Measurements of the electrical resistivity as a function of temperature, ρ(T), for different values of applied magnetic field, Ba (0 ≤ Ba ≤ 50 mT), were performed in polycrystalline samples of Bi1.65Pb0.35Sr2Ca2 Cu3O10+δ subjected to different uniaxial compacting pressure (UCP). We have found apprec...

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Published inThe European physical journal. B, Condensed matter physics Vol. 58; no. 4; pp. 373 - 378
Main Authors GOVEA-ALCAIDE, E, GARCIA-FORNARIS, I, MUNE, P, JARDIM, R. F
Format Journal Article
LanguageEnglish
Published Les Ulis Springer 01.08.2007
Berlin EDP sciences
Springer Nature B.V
Subjects
Compacting
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Creep (materials)
Diffraction patterns
Exact sciences and technology
Grain orientation
Magnetic fields
Magnetism
Physics
Properties of type I and type II superconductors
Superconductivity
Vortex lattices ,flux pinning, flux creep
Electrical conductivity
Superconducting transitions
Flux creep
Magnetic field effects
Polycrystals
Bismuth oxides
Lead oxides
XRD
Grain orientation
Texture
Calcium oxides
Compacting
Weak links
Strontium oxides
Flux pinning
High-Tc superconductors
Three-level systems
Copper oxides
Activation energy
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Summary:Measurements of the electrical resistivity as a function of temperature, ρ(T), for different values of applied magnetic field, Ba (0 ≤ Ba ≤ 50 mT), were performed in polycrystalline samples of Bi1.65Pb0.35Sr2Ca2 Cu3O10+δ subjected to different uniaxial compacting pressure (UCP). We have found appreciable differences in the grain orientation between samples by using X-ray diffractometry. From the X-ray diffraction patterns performed, in powder and pellet samples, we have estimated the Lotgering factor along the (00l) direction, F(00l). The results indicate that F(00l) increases ~23% with increasing UCP suggesting that grains of these samples are preferentially aligned along the c-axis, which is parallel to the compacting direction. The resistive transition of the samples have been interpreted in terms of the thermally activated flux-creep model. In addition, the effective intergranular pinning energy, U0, have been determined for different applied magnetic field. The magnetic field dependence of U0, for Ba > 8 mT, was found to follow a H- α dependence with α = 0.5 for all samples. The analysis of the experimental data strongly suggested that increasing UCP results in appreciable changes in both the grain alignment and the grain connectivity of the samples. We have successfully interpreted the data by considering the existence of three different superconducting levels within the samples: the superconducting grains, the weak-links, and the superconducting clusters.
ISSN:1434-6028
1434-6036
DOI:10.1140/epjb/e2007-00242-0