Ferromagnetic quantum phase transition in Sr1-xCaxRuO3 thin films

Abstract

The ferromagnetic quantum phase transition in the perovskite ruthenate Sr1-xCaxRuO3 is studied by low-temperature magnetization and electrical resistivity measurements on thin films. The films were grown epitaxially on SrTiO3 substrates using metalorganic aerosol deposition and characterized by X-ray diffraction and room temperature scanning tunneling microscopy. High residual resistivity ratios of 29 and 16 for x=0 and x=1, respectively, prove the high quality of the investigated samples. We observe a continuous suppression of the ferromagnetic Curie temperature from TC=160 K at x=0 towards TC 0 at xc≈ 0.8. The analysis of the electrical resistivity between 2 and 10 K reveals T2 and T3/2 behavior at x≤ 0.6 and x≥ 0.7, respectively. For undoped CaRuO3, the measurement has been extended down to 60 mK, revealing a crossover to T2 behavior around 2 K, which suggests a Fermi-liquid ground state in this system.