Spin and Orbital Hall Effects in Two-Dimensional Topological Materials
Offered By: IMSA via YouTube
Course Description
Overview
Explore the fascinating world of spin and orbital Hall effects in two-dimensional topological materials through this comprehensive lecture. Delve into high-throughput calculations of spin (SHC) and orbital (OHC) Hall conductivities across hundreds of 2D materials, uncovering the intricate relationship between these Hall effects and topological properties. Examine the OHC plateau observed within the insulating gap of 2D transition metal dichalcogenides (TMDs), characterized as higher-order topological insulators (HOTIs) using a Z4 topological invariant. Discover how general symmetry principles establish a connection between these phenomena, highlighting potential applications in spin-orbitronics. Gain a broader perspective by analyzing SHC and OHC data compiled from an extensive 2D materials database, enhancing your understanding of these cutting-edge concepts in condensed matter physics.
Syllabus
Marcio Costa: Spin and Orbital Hall Effects in Two-Dimensional Topological Materials
Taught by
IMSA
Related Courses
Topology in Condensed Matter: Tying Quantum KnotsDelft University of Technology via edX Atomic and Optical Physics Iā Part 3: Atom-Light Interactions 1 -- Matrix elements and quantized field
Massachusetts Institute of Technology via edX Atomic and Optical Physics I ā Part 5: Coherence
Massachusetts Institute of Technology via edX Atomic and Optical Physics: Quantum States and Dynamics of Photons
Massachusetts Institute of Technology via edX Atomic and Optical Physics: Atom-photon interactions
Massachusetts Institute of Technology via edX