Analytical Tools for a Proof of Localization - Part 1

Explore analytical tools for proving localization in quantum systems through this 57-minute lecture by John Imbrie. Delve into the stability of quantum matter in and out of equilibrium as part of a comprehensive program on quantum physics. Examine mechanisms like many-body localization, Floquet MBL, dynamical freezing, and Hilbert space fragmentation that constrain many-body dynamics. Gain insights into cutting-edge concepts from condensed matter physics, statistical mechanics, and quantum field theory applied to understanding many-body stability problems. Learn about potential applications for developing stable quantum devices and improving quantum system control. Suitable for senior PhD students, postdocs, and faculty members working in related fields of quantum physics and technologies.

Analytical Tools for a Proof of Localization (PL I) by John Imbrie