Explore a 19-minute lecture from the International Centre for Theoretical Sciences' program on discrete integrable systems, where Tista Banerjee delves into entanglement transitions within non-Hermitian integrable Floquet systems. Part of a comprehensive two-week program examining discrete integrable systems, difference equations, cluster algebras, and probabilistic models, the presentation contributes to broader discussions on exactly solvable systems and their conserved quantities. Learn about the intersection of quantum mechanics and non-Hermitian physics while understanding how these systems relate to various branches of theoretical physics and mathematics, including statistical physics, string theory, combinatorics, representation theory, geometry, and probability.
Entanglement Transitions in Non-Hermitian Integrable Floquet Systems
International Centre for Theoretical Sciences via YouTube
Overview
Syllabus
Entanglement Transitions in non-Hermitian Integrable Floquet Systems by Tista Banerjee
Taught by
International Centre for Theoretical Sciences
Related Courses
-
Ruijsenaars and Toda Integrable Systems
-
Phase Transitions in a System of Long Hard Rods on a Lattice
-
Stationary Measures for Integrable Probabilistic Systems
-
Foundations of quantum theory: Relativistic approach
-
Integrable Difference Equations and Orthogonal Polynomials with respect to a Discrete Measure
-
Bond Percolation Games and Their Connections with Probabilistic Cellular Automata
