Electrical Resistivity Anomaly, Valence Shift Of Pr Ion, And Magnetic Behavior In Epitaxial (Pr(1-Y)Yy) 1-Xca(X)Coo(3) Thin Films Under Compressive Strain

JOURNAL OF APPLIED PHYSICS(2017)

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Abstract
We have fabricated (Pr1- yYy)(1- x)CaxCoO3 (PYCCO) epitaxial films with various thicknesses by pulsed laser deposition on the SrLaAlO4 (SLAO) substrate that applied an in-plane compressive stress to the film, and investigated the temperature dependence of the electrical resistivity, rho(T), of the films. An anomalous rho(T) upturn with a broad hysteresis could be clearly observed only for the thinnest film (d = 50nm), and the rho(T) anomaly decreased by increasing film thickness, d. The temperature dependence of the X-ray absorption near-edge structure (XANES) spectra at Pr L-2-edge was measured for the films, and the valence states of praseodymium (Pr)ion were determined using the analysis of the XANES spectra. As a result, the average valence of the Pr ion in the d = 50nm film slightly increases with decreasing temperature from the common value of 3.0+ around room temperature to 3.15+ at 8K. The valence shift of Pr is thus similar to what was observed on the PYCCO polycrystalline bulks with an abrupt metal-insulator transition, accompanied by a spinstate (SS) transition of Co ions. Furthermore, the low-temperature SQUID measurements evidenced a paramagnetic behavior down to the lowest temperature, which suggests that the dominant part of Co3+ ions in the film grown on the SLAO substrate tends to be in the low spin state characteristic for the insulating ground state. These results strongly suggest that the anomalous rho(T) upturn in the thin films on the SrLaAlO4 (SLAO) substrate is closely related to the SS transition of Co ions. On the other hand, PYCCO films grown on the LaAlO3 (LAO) substrate that applied an in-plane tensile stress showed no valence shift of Pr ions and developed a long range ferromagnetic order, which points to a complete suppression of the low-temperature transition. The behaviors of the epitaxial films are discussed in terms of the in-plane stress exerted by different substrates and accumulated elastic energy.
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Key words
electrical resistivity anomaly,thin films,pr ion,compressive strain,magnetic behavior
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