Time Evolution on the Information Lattice and Slow Growth of Number Entropy in L-Bit Models
International Centre for Theoretical Sciences via YouTube
Overview
Explore the intricacies of quantum matter stability in a 34-minute lecture on time evolution and entropy growth in l-bit models. Delve into the complex world of many-body quantum systems and their coherent time evolution, focusing on the slow growth of number entropy in information lattices. Learn about cutting-edge concepts in non-equilibrium physics, including Many-body localization (MBL), Floquet MBL, Dynamical Freezing, and Hilbert Space Fragmentation. Gain insights into the interdisciplinary nature of this research, drawing from Condensed Matter Physics, Statistical Mechanics, Quantum Field Theory, and advanced Mathematics. Understand the potential applications in quantum technologies and the importance of stable quantum device operation. This lecture, presented by Jens at the International Centre for Theoretical Sciences, is part of a comprehensive program on the stability of quantum matter in and out of equilibrium at various scales.
Syllabus
Time evolution on the information lattice and slow growth of number entropy in l-bit models by Jens.
Taught by
International Centre for Theoretical Sciences