Vortex Interactions and Thermally Induced Crossover from Type-I to Type-II Superconductivity
Abstract
We have computed the effective interaction between vortices in the Ginzburg-Landau model from large-scale Monte-Carlo simulations, taking thermal fluctuations of matter fields and gauge fields fully into account close to the critical temperature. We find a change, in the form of a crossover, from attractive to repulsive effective vortex interactions in an intermediate range of Ginzburg-Landau parameters ∈ [0.76-1]/2 upon increasing the temperature in the superconducting state. This corresponds to a thermally induced crossover from to superconductivity around a temperature TCr(), which we map out in the vicinity of the metal-to-superconductor transition. In order to see this crossover, it is essential to include amplitude fluctuations of the matter field, in addition to phase-fluctuations and gauge-field fluctuations. We present a simple physical picture of the crossover, and relate it to observations in Ta and Nb elemental superconductors which have low-temperature values of in the relevant range.
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