YoVDO

Absence of Superdiffusion in Certain Random Spin Models - Austen Lamacraft

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Non-equilibrium physics Courses Statistical Physics Courses Many-body systems Courses Entanglement Dynamics Courses Universality Classes Courses Short-Time Universality Courses

Course Description

Overview

Explore the absence of superdiffusion in specific random spin models in this 35-minute conference talk by Austen Lamacraft from the Kavli Institute for Theoretical Physics. Recorded as part of the 2021 Non-Equilibrium Universality in Many-Body Physics KITP Conference, delve into the cutting-edge research at the intersection of statistical physics, AMO, condensed matter, and high-energy physics. Examine novel phases of matter far from equilibrium and their associated universality classes that emerge beyond traditional equilibrium paradigms. Gain insights into topics such as short-time universality, entanglement dynamics, and mappings between classical and quantum non-equilibrium systems. Discover how this research contributes to the broader goal of identifying aspects of high-energy physics that can inform non-equilibrium condensed and AMO systems, and vice versa, with a focus on realizing experiments to enhance our understanding of far-from-equilibrium universality.

Syllabus

Absence of superdiffusion in certain random spin models ▸ Austen Lamacraft


Taught by

Kavli Institute for Theoretical Physics

Related Courses

Correlation Functions from Hydrodynamics Beyond the Boltzmann-Gibbs Paradigm - Benjamin Doyon
Kavli Institute for Theoretical Physics via YouTube
Many-Body Localization Under the Microscope - Julian Leonard
Kavli Institute for Theoretical Physics via YouTube
Non-Unitary Dynamics - Dissipative to Monitored - Vedika Khemani
Kavli Institute for Theoretical Physics via YouTube
Superdiffusion, Subdiffusion, Integrability - Sarang Gopalakrishnan
Kavli Institute for Theoretical Physics via YouTube
Non-Analytic Non-Equilibrium Field Theory - Camille Aron
Kavli Institute for Theoretical Physics via YouTube