Orbital Selective Electronic Correlations and Topological Superconductivity of Iron Chalcogenide - A DMFT Perspective

Explore orbital selective electronic correlations and topological superconductivity in iron chalcogenides through a Dynamical Mean Field Theory (DMFT) perspective in this 43-minute research presentation. Delve into the complex electronic properties of iron-based superconductors, examining how orbital-dependent correlations influence their superconducting behavior and topological characteristics. Learn about the theoretical framework of DMFT and its application to understanding the interplay between electronic correlations and unconventional superconductivity in chalcogenide materials. Gain insights into cutting-edge research methodologies used to investigate quantum many-body effects in strongly correlated electron systems and their implications for topological quantum states.