Physics – Condensed Matter – Superconductivity
Scientific paper
2001-02-14
Physics
Condensed Matter
Superconductivity
16 pages, 1 Figure, corrected some typos and added two paragraphs on p. 4
Scientific paper
The causes of high-temperature superconductivity (HTSC) are still mysterious, although more than 50,000 experiments have studied this subject. The most severe test of any microscopic theory is generally considered to be its ability to predict the results of future experiments. Here we examine recent (99-01)studies of BSCCO films by STM, which have revealed nanodomain structure on a scale of 3 nm which is closely correlated with both superconductive gaps and pseudogaps. This structure and these correlations were predicted as part of a discrete filamentary model of HTSC in 90. The nanodomain diameter of 3 nm was identified in experiments on YBCO in 96. While none of the experiments can directly establish causes, in the predictive theoretical model it was proposed that the underlying forces generating the nanostructure are ferroelastic. It was also predicted that the strong correlations of the superconductive gap and pseudogap electronic structure with nanostructure are the result of dopant self-organization. Here we describe a new method of preparing boride alloys, and we predict that it may produce materials with Tc ~ 150K or more.
Jung Jae Joon
Phillips Charles J.
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