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Particle size effect of a.c. superconducting properties in compound |
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| Authors: | I Kirschner R Laiho AC Bódi AD Caplin E Lähderanta G Zsolt |
| Institution: | Institute of Physics, E?tv?s University, 1117 Budapest, Hungary, HU Wihuri Physical Laboratory, University of Turku, 20014 Turku, Finland, FI Institute of Experimental Physics, Kossuth University, 4001 Debrecen, Hungary, HU Centre for High Temperature Superconductivity, Imperial College, SW7 2BZ London, Great Britain, GB |
| Abstract: | Using a new starting material of Ba2Cu3O5 and a three step heat treatment, single phase Tl2Ca1Ba2Cu2O8 high- superconducting samples have been prepared, possessing the onset- and critical temperatures K and K. The morphology dependent value of is 17 Oe, 8 Oe and 5 Oe at 77 K in the case of bulk, crushed and powdered materials, respectively. The a.c. susceptibility, r.f. susceptibility and microwave absorption properties show a significant dependence on the particle size with a sharp change in the interval between 750 μm and 1200 μm. These experiments provide characteristic parameters for intergrain material (treated as 3D Josephson network) as mm, Oe and A/cm2 at 77 K. The data are controlled by modulated microwave absorption measurements. The results obtained can be explained well both by the finite size junction model and cavity mode absorption model. The Josephson network is determined unambiguously by metallic S-N-S weak links. Received 10 October 1998 |
| Keywords: | PACS 74 25 -q General properties correlations between physical properties in normal and superconducting states - 74 40 +k Fluctuations (noise chaos nonequilibrium superconductivity localization etc ) - 75 40 -s Critical-point effects specific heats short-range order |
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