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1 Introduction Since the discovery of high-temperature superconductivity, there has been a grow- ing interest in conducting metal oxides as this is quite uncommon behaviour for an oxide compound. In particular, complex metal oxides possess a variety of in- teresting structural, electronic, magnetic and optical properties - figure 1.1 (60). Although this work is focused on only one member the family of perovskite nicke- lates SmNiO3 (SNO), it is worth to mention the whole family, which is described by the chemical formula RNiO3 (RNO), where R (or RE) is a trivalent rare-earth ion such as La, Pr, Nd, Sm, or Lu. These nickelates are characterized by a variety of interesting physical properties and structures. Figure 1.1: Phenomena in complex oxides - Diagram showing possible phys- ical phenomena that can be found on the complex oxide interface with respective electron symmetries. Adapted from (60) 1PDF Image | Investigation of metal-insulator transition in magnetron sputtered samarium nickelate thin films
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