Planar 17O NMR study of PryY1-yBa2Cu3O6+x

Abstract

We report the planar 17O NMR shift in Pr substituted YBa2Cu3O6+x, which at x=1 exhibits a characteristic pseudogap temperature dependence, confirming that Pr reduces the concentration of mobile holes in the CuO2 planes. Our estimate of the rate of this counterdoping effect, obtained by comparison with the shift in pure samples with reduced oxygen content, is found insufficient to explain the observed reduction of Tc. From the temperature dependent magnetic broadening of the 17O NMR we conclude that the Pr moment and the local magnetic defect induced in the CuO2 planes produce a long range spin polarization in the planes, which is likely associated with the extra reduction of Tc. We find a qualitatively different behaviour in the oxygen depleted PryY1-yBa2Cu3O6.6, i.e. the suppression of Tc is nearly the same, but the magnetic broadening of the 17O NMR appears weaker. This difference may signal a weaker coupling of the Pr to the planes in the underdoped compound, which might be linked with the larger Pr to CuO2 plane distance, and correspondingly weaker hybridization.

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