Quantum Chaos and Scrambling

Description

This lecture delves into the concept of scrambling in quantum chaotic systems, where small perturbations can lead to large effects over time. The discussion connects classical chaos to quantum chaos, emphasizing sensitivity to initial conditions. The instructor explores the quantum mechanical counterpart of this phenomenon, known as scrambling, and its implications in spectral statistics. The lecture also touches upon the implications of chaos in black holes and the behavior of out-of-time-ordered correlators. Various concepts such as Lyapunov exponents, conformal field theory, and the bound on chaos are discussed, shedding light on the intricate interplay between chaos and quantum mechanics.

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Ontological neighbourhood

Mathematics

Analysis: Complex analysis

Number theory: Number theory, Topics in number theory

Topology: Manifolds

Physics

Relativity: General relativity

Quantum mechanics: Quantum gravity

Particle physics: Standard Model

Astronomy

Astrophysics: Physical cosmology

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