Novel First-Principles Tools for Electron Dynamics in Quantum Materials and Devices

Understanding electron dynamics in quantum materials and devices presents new challenges and opportunities. In this talk, I will discuss novel first-principles tools developed in my group to study transport in electric and magnetic fields in quantum materials with spin-orbit coupling, nontrivial band topology, and strong electronic correlations. Methods to accurately predict spin relaxation and defect-mediated scattering, of relevance for quantum devices, will also be discussed. I will conclude by highlighting progress on our open-source code, PERTURBO, to make these new computational methods and workflows available to the community.