Physics – Condensed Matter – Superconductivity
Scientific paper
2008-08-07
Physics
Condensed Matter
Superconductivity
Scientific paper
Strain engineering has been used to modify materials properties in ferroelectric, superconducting, and ferromagnetic thin films. The advantage of strain engineering is that it can achieve unexpected enhancement in certain properties, such as an increase in ferroelectric critical temperature, Tc, by 300 to 500K, with a minimum detrimental effect on the intrinsic properties of the material. The strain engineering has been largely applied to the materials in thin film form, where the strain is generated as a result of lattice mismatch between the substrate and component film or between layers in multilayer structures. Here, we report the observation of residual thermal stress/strain in dense SiC-MgB2 superconductor composites prepared by a diffusion method. We demonstrate that the thermal strain caused by the different thermal expansion coefficients between the MgB2 and SiC phases is responsible for the significant improvement in the critical current density, Jc, the irreversibility field, Hirr, and the upper critical field, Hc2, in the SiC-MgB2 composite where the carbon substitution level is low. In contrast to the common practice of improving the Jc and Hc2 of MgB2 through chemical substitution, by taking advantage of residual thermal strains we are able to design a composite, which shows only a small drop in Tc and little increase in resistivity, but a significant improvement over the Jc and Hc2 of MgB2. The present findings open up a new direction for manipulation of materials properties through strain engineering for materials in various forms.
Dou Zeng S. R. X.
Kim Heon Jung
Li Wei-Xi
Lu Linyuan
Munroe Paul
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