Prof. Dr. Rafal E. Dunin-Borkowski
Director of the Institute for Microstructure Research, Director of the Ernst Ruska-Centre for Microscopy and Spectroscopy with Electrons, Peter Gruenberg Institute, Research Centre Juelich, Deutschland
Transmission electron microscopy (TEM) has been revolutionised in recent years, both by the introduction of new hardware such as field-emission electron guns, aberration correctors and in situ stages and by the development of new techniques, algorithms and software that take advantage of increased computational speed and the ability to control and automate modern electron microscopes. In this talk, he will describe how the specialised TEM technique of electron holography, in combination with a model-based approach for the reconstruction of magnetization distributions from electron optical phase images, can be used to image the magnetic properties of materials with close-to-atomic spatial resolution, both in projection and in three dimensions. He will present results obtained from magnetic materials that are of interest for energy-efficient information technology, including nanoscale magnetic skyrmions in extended films and geometrically-confined structures fabricated using focused ion beam milling. He will conclude with a personal perspective on directions for the future development of transmission electron microscopy. Such developments may ultimately lead to approaches for characterising the positions, chemical identities and magnetic moments of individual atoms in three dimensions.