High-temperature ferromagnetism in the diluted magnetic semiconductor system lanthanum tantalum cobalt oxynitride

After two decades of research, we present the first semiconducting bulk high-temperature diluted ferromagnetic materials, based on the so far unknown perovskite-type oxynitrides LaTa1-xCox(O,N)3-{\delta} (x = 0.01, 0.03, 0.05). The oxynitrides appear red with an optical bandgap of around 2 eV. An almost temperature-independent clear ferromagnetic saturative behaviour with coercive fields also present above room temperature was found by conventional and element specific magnetometry. The sample magnetisations were large enough to directly observe attracting forces by permanent magnets. Co clusters as a possible source for the observed high-temperature ferromagnetism can be excluded, since a variety of applied characterisation methods verify phase purity with a significant amount of anion vacancies. Therefore, we suggest these vacancies as an origin for a complex interaction between defect-like magnetism - as observed in many other oxides - and the introduced magnetic Co ions. The here reported results are highly relevant for semiconducting spintronics.