Ginzburg Landau theory of superconductivity at fractal dimensions

Abstract

The post Gaussian effective potential in D=2+2 dimensions is evaluated for the Ginzburg-Landau theory of superconductivity. Two and three loop integrals for the post Gaussian correction terms in D=2+2 dimensions are calculated and -expansion for these integrals are constructed. In D=2+2 fractal dimensions Ginzburg Landau parameter turned out to be sensitive to and the contribution of the post Gaussian term is larger than that for D=3. Adjusting to the recent experimental data on (T) for high -Tc cuprate superconductor Tl2Ca2Ba2Cu3O10 (T-2223), we found that =0.21 is the best choice for this material. The result clearly shows that, in order to understand high - Tc superconductivity, it is necessary to include the fluctuation contribution as well as the contribution from the dimensionality of the sample. The method gives a theoretical tool to estimate the effective dimensionality of the samples.

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