Expansion of Vortex Cores by Strong Electronic Correlation in La2-xSrxCuO4 at Low Magnetic Induction
Abstract
The vortex core radius , defined as the peak position of the supercurrent around the vortex, has been determined by muon spin rotation measurements in the mixed state of for x=0.13, 0.15, and 0.19. At lower doping (x=0.13 and 0.15), (T) increases with decreasing temperature T, which is opposite to the behavior predicted by the conventional theory. Moreover, (T0) is significantly larger than the Ginsburg-Landau coherence length determined by the upper critical field, and shows a clear tendency to decrease with increasing the doping x. These features can be qualitatively reproduced in a microscopic model involving antiferromagnetic electronic correlations.
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