Symmetry origin of the quantum-classical transition, hydrodynamics, and decodability.
- Date
- June 26 (Fri) 14:00 - 16:00, 2026 (JST)
- Speaker
-
- Cenke Xu (Professor, University of California, Santa Barbara, USA)
- Language
- English
- Host
- Álvaro Pastor Gutiérrez
We discuss the following question: when a quantum system evolves into classical one, is there a sharp transition? We will show that the “strong-to-weak” spontaneous symmetry breaking (SW-SSB) provides a sharp onset of classical physics. We present the theoretical framework and summarize recent experimental progress toward observing SW-SSB. We will also discuss the consequence of the SW-SSB, including the emergence of hydrodynamics, and also its information aspect, such as the transition of decodability and distinguishability. Much of the theoretical analysis maps to a problem of defect in the Euclidean spacetime.
Reference
- Si Wang, Thomas G. Kiely, Dorothee Tell, Johannes Obermeyer, Marnix Barendregt, Petar Bojović, Philipp M. Preiss, Abhijat Sarma, Titus Franz, Matthew P. A. Fisher, Cenke Xu, Immanuel Bloch, Observation of Strong-to-Weak Spontaneous Symmetry Breaking in a Dephased Fermi Gas, arXiv: 2604.16137
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