Title :
Weak link behavior in polycrystalline BaPb0.75Bi0.25O3
Author :
Cooley, L. ; Daeumling, M. ; Willis, T.C. ; Larbalestier, D.C.
Author_Institution :
Wisconsin Univ., Madison, WI, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
A study has been made of the critical-current densities of polycrystalline samples of the perovskite oxide superconductor BaPb0.75Bi0.25O3 (BPB). BPB does not have the complications of twin boundaries and a highly anisotropic unit cell as is found in the high-Tc oxide superconductors (HTSC), and the coherence length (ξ) is much longer than in HTSC materials (~7 nm as compared to ~0.5 to 2.5 nm). Thus some problems which have proved quite complex for HTSC materials (e.g. twin pinning or weak links) should be absent or have a different character in BPB. The authors have produced several samples of BPB. X-ray diffraction showed that the samples were single-phase, but an electron microprobe was used to identify about 1 vol.% of other phases present. The authors found that the transport critical-current density, as high as 2 A/cm2 in zero field, drops markedly in fields of only 0.1 T. Flux penetration measurements place the magnetization critical-current density at about 104 A/cm2. This large discrepancy is attributed to weak links
Keywords :
X-ray diffraction examination of materials; barium compounds; bismuth compounds; coherence length; critical current density (superconductivity); electron microscope examination of materials; lead compounds; magnetisation; penetration depth (superconductivity); type II superconductors; BaPb0.75Bi0.25O3; X-ray diffraction; coherence length; critical-current densities; electron microscopy; flux penetration; magnetization critical-current density; perovskite oxide superconductor; polycrystalline samples; weak links; zero field; Anisotropic magnetoresistance; Bismuth; Conductivity; Current density; Grain boundaries; Impurities; Magnetization; Scanning electron microscopy; Superconductivity; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
