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Quantum Algorithms
Asymmetry dynamics and nonequilibrium symmetry-breaking phase transitions
arXiv
Authors: Liv Hammer, Colin Rylands, Federico Carollo
Year
2026
Paper ID
69009
Status
Preprint
Abstract Read
~2 min
Abstract Words
181
Citations
N/A
Abstract
In classical settings, the Mpemba effect occurs when a hotter system cools faster than an initially colder one. In quantum systems, this effect can be reinterpreted exploiting the concept of symmetries, with the asymmetry of a subsystem playing the role of temperature. A quantum Mpemba effect arises when a more asymmetric state restores the symmetry faster than a less asymmetric one. Previous work mainly focuses on closed systems characterized by thermal equilibration and Hamiltonian symmetries. In this paper, we analyze the dynamics of asymmetry in an open quantum many-body system featuring symmetry breaking and uncover dynamical behavior that appears to be unique to these settings. In the symmetric phase, we demonstrate the existence of a quantum Mpemba effect, which emerges as a direct consequence of a non-monotonic evolution of the asymmetry. In the broken-symmetry phase, we analyze the imbalance between the system's ability to increase or to decrease its asymmetry. Our results extend the notion of quantum Mpemba effects to open quantum many-body systems exhibiting symmetry-breaking phase transitions and establish them as a platform for observing and controlling anomalous relaxation phenomena.
Why This Paper Matters
- It adds a 2026 reference point for readers tracking recent quantum research.
- In classical settings, the Mpemba effect occurs when a hotter system cools faster than an initially colder one.
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