Explore deviations from ohmic transport in crystalline graphene ferromagnets in this 33-minute conference talk by Andrea Young from UCSB. Delivered as part of the "Electron Correlations beyond the Quasiparticle Paradigm: Theory and Experiment" conference at the Kavli Institute for Theoretical Physics, delve into cutting-edge research on materials that challenge the Fermi-liquid paradigm. Examine new theoretical and experimental results reshaping our understanding of quantum matter, focusing on non-Fermi liquid observations, electron transport beyond quasiparticles, and the nature of Cooper pairing in systems without well-defined quasiparticles. Gain insights into recent developments in quantum Monte Carlo simulations and analytical results of effective low-energy theories, contributing to the ongoing discussion on the boundaries of traditional quasiparticle frameworks in condensed matter physics.
Deviations From Ohmic Transport in Crystalline Graphene Ferromagnets - Andrea Young
Kavli Institute for Theoretical Physics via YouTube
Overview
Syllabus
Deviations from ohmic transport in crystalline graphene ferromagnets â–¸ Andrea Young (UCSB)
Taught by
Kavli Institute for Theoretical Physics
Related Courses
-
Competing Orders in Twisted Bilayer Graphene - Laura Classen
-
Transport in the Hubbard Model - Quantum Monte Carlo Study - Thomas Devereaux
-
Superconductivity and Strong Correlations in Untwisted Graphene - Stevan Nadj Perge
-
Spatially Resolved Transport of Interacting Electrons - Andy Lucas (U Colorado-Boulder)
-
Charge Correlations in the AV3Sb5 Class of Kagome Superconductors - Stephen Wilson
-
Departures from Fermi-Liquid Physics in Hund Metals - Luca De' Medici
