Thermal Anyon Interferometry in Phonon-Coupled Kitaev Spin Liquids - Gábor Halász
Offered By: Kavli Institute for Theoretical Physics via YouTube
Course Description
Overview
Explore a 36-minute conference talk on thermal anyon interferometry in phonon-coupled Kitaev spin liquids, presented by Gábor Halász from Oak Ridge National Laboratory. Delivered as part of the Dynamical Response and Transport in Quantum Magnets conference at the Kavli Institute for Theoretical Physics, this presentation delves into recent advancements in quantum magnetism. Discover how the interplay between spin, orbital, and lattice degrees of freedom in magnetic materials leads to the emergence of low-energy quantum gauge theories. Gain insights into the search for novel topologically-ordered states of matter, the computation and measurement of dynamical and transport properties revealing fractionalization, and the impact of disorder and spin-phonon interactions. Learn about emergent electrodynamics induced by topological spin textures, unusual dynamics of integrable systems, and the revolutionary perspective on 2D quantum magnetism provided by Moiré systems experiments.
Syllabus
Thermal anyon interferometry in phonon-coupled Kitaev spin liquids ▸ Gábor Halász (Oak Ridge NL)
Taught by
Kavli Institute for Theoretical Physics
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