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Spin and Energy Hydrodynamics in Low-Dimensional Materials - Joel Moore

Kavli Institute for Theoretical Physics via YouTube

Overview

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Explore spin and energy hydrodynamics in low-dimensional materials in this 32-minute conference talk by Joel Moore at the Kavli Institute for Theoretical Physics. Delve into the fascinating world of transport and efficient energy conversion in quantum systems, covering topics such as the Heisenberg point, KBC equation, linear atomic experiments, and breaking integrability. Examine numerical simulations, implications, and leading perturbations in the context of quantum charge and spin transport. Gain insights into the emergence of thermodynamical concepts and the creation of quantum coherent systems with novel degrees of control. Investigate optimal protocols for energy and information transport, as well as state preparation. This talk, part of the Transport and Efficient Energy Conversion in Quantum Systems Conference, brings together experts from various fields to address fundamental challenges in quantum physics and statistical mechanics.

Syllabus

Introduction
Hamiltonian
Heisenberg point
Background
Kbc equation
Linear atomic experiments
Breaking integrability
Long time limit
Numerical simulations
Implications
Conclusion
Hands up
Leading perturbations
The short answer
Sign Gordon model
Atomic case
Nonlinear behavior
Linear response experiments
Questions

Taught by

Kavli Institute for Theoretical Physics

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