Concept

Quantum chaos

Related lectures (12)

Explores RG flows, quantum chaos, chaos bounds, and their fundamental connection.

Quantum Chaos: Classical and Random Matrices

Explores classical and quantum chaos, magnetic monopoles, weak and strong coupling, and random matrix theory with a focus on Gaussian Unitary Ensemble.

Quantum Chaos and Scrambling

Explores the concept of scrambling in quantum chaotic systems, connecting classical chaos to quantum chaos and emphasizing sensitivity to initial conditions.

Introduction to Quantum Chaos

Covers the introduction to Quantum Chaos, classical chaos, sensitivity to initial conditions, ergodicity, and Lyapunov exponents.

Thermalization and Information Loss

Explores thermalization, ETH testing in spin chains, information loss in black holes, and challenges in quantum gravity.

Collisionless Boltzmann Equation

Explores the Collisionless Boltzmann equation, distribution functions, Jeans theorems, resonances, chaotic orbits, and equilibria in stellar systems.

Eigenstate Thermalization Hypothesis

Explores the Eigenstate Thermalization Hypothesis in quantum systems, emphasizing the random matrix theory and the behavior of observables in thermal equilibrium.

Understanding Chaos in Quantum Field Theories

Explores chaos in quantum field theories, focusing on conformal symmetry, OPE coefficients, and random matrix universality.

Chaos Theory: Maps and Lyapunov Exponents

Explores chaotic maps, fix points, stability, and Lyapunov exponents in discrete systems, emphasizing their role in determining chaos.

Stellar Orbits: Integrals of Motion and Phase Space Visualization

Covers integrals of motion and surfaces of section in stellar dynamics.

Wigner's Semi-circular Law: The Sine Kernel

Covers Wigner's semi-circular law and the sine kernel in chaotic quantum systems.

Quantum Signatures of Chaos

Delves into quantum signatures of chaos, analyzing level spacing distributions in various systems and the challenges in observing quadratic level repulsion.