Solution-Condensed YBa2Cu3O7 −x Superconductor Thin Films from Thermosetting Metal-Organic Precursors |
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Authors: | Sung S. Pak Fred C. Montgomery D. M. Duggan K. C. Chen K. S. Mazdiyasni Patricia K. Tsai Lisa M. Paulius M. Brian Maple |
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Affiliation: | General Atomics, San Diego, California 92186–9784;Department of Physics and Institute for Pure and Applied Physical Sciences, University of California at San Diego, La Jolla, California 92093 |
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Abstract: | Two different multimetal organic compounds were synthesized and used to deposit thin Y:Ba:Cu oxide films on selected metal and ceramic substrates by the dip-coating method. The rheology of the precursors is strongly influenced by the organic ligand, types of solvent, solvent–water molar ratio, and processing method. The precursor compounds were converted to suitable viscosity to achieve uniform film thickness processing on complex geometry. Superconducting transition temperatures T c in the range of 89 to 93 K have been measured, depending on processing parameters used. The critical current density, J c of the solution-coated films had values comparable to those for poly-crystalline samples. Y123 films exhibit c -axis alignment on Ag substrates. A prototype high- Q cavity was coated with Y123 and its performance was evaluated. |
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