Scientific Research
Milan Radovic’s main research activity is focused on the study of the novel electronic and magnetic properties emerging at complex heterostructures, surfaces, and interfaces. He is combining spectroscopy with a material design to develop common methods to tailor and control properties of low dimensional electron systems toward full exploitation of their technological promise. Especially, a static and dynamic interplay between charges, orbital order, magnetism, and lattice distortions at surfaces and interfaces is the main focus of his studies. In addition, he is exploring charge transfer, the relationship between superconductivity and magnetism, and proximity-induced orders to control superconductivity, magnetic fluctuations, and topological properties. Understanding the origin of MIT in 3D and 2D dimensional systems is of high importance for condensed matter physic. Milan Radovic and his colleagues are using synchrotron and FEL-based spectroscopy techniques on complex heterostructures to reveal the cause of MIT and to generate novel preparties that are intimately connected to it.