Sprecher
Beschreibung
Quantum thermalization is one of the most universal phenomena in quantum many-body dynamics, forming a fundamental bridge between quantum and statistical mechanics. Recent advances in programmable quantum simulators have not only enabled experimental verification of thermalization but also opened new avenues for discovering universal behaviors in complex quantum systems. In this talk, I will introduce a recently discovered phenomenon known as deep thermalization, which extends the concept of thermalization beyond local observables. I will present its core principles and survey recent developments in this rapidly evolving topic. The deep thermalization reveals a profound connection between quantum many-body physics and information theory, offering fresh insights into the fundamental nature of quantum dynamics.
