Oxygen Isotope Effect of the Plane-Copper NQR Frequency in YBa2Cu4O8

Abstract

We report on high-precision measurements of the temperature dependence of the plane-63Cu NQR line frequency nuQ(Cu2) and the linewidth in normal and superconducting 16O and 18O exchanged YBa2Cu4O8. Whereas nuQ(Cu2) passes Tc very smoothly without a discontinuity either in value nor in slope, the linewidth increases in the normal conducting phase down to Tc and starts to decrease sharply in the superconducting phase to finally resume its high-temperature value of the normal phase. There is a well discernible oxygen isotope effect on the nuQ(Cu2) temperature dependencies. The temperature dependence of nuQ(Cu2) is described by an empirical expression consisting of two parts: one related to the thermal expansion of the lattice and the other due to charge redistribution during the formation of new electronic structures in the CuO2 planes. From the fit to the experimental data we determine for the conjectured formation of new electronic structures an energy scale Delta(16O) = 188.0(1.6) K and Delta(18O) = 180.0(1.6) K. This results in a partial oxygen isotope effect coefficient of 0.42(11) which is larger than both the spin-pseudogap coefficient [0.061(8)] and the Tc coefficient [0.056(12)].

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