Operators evolving under the adjoint Liouvillian in open quantum systems can exhibit a genuine Mpemba effect, with general conditions derived and validated across three setups.
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In chaotic quantum systems with conservation laws, states initially farther from equilibrium can thermalize faster than closer ones via hydrodynamic relaxation differences, realizing the quantum Mpemba effect.
The quantum Mpemba effect in a three-level system is described using the SEAQT framework with Hilbert space projection and a machine-learning-fitted relaxation parameter.
citing papers explorer
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Quantum Mpemba effect for operators in open systems
Operators evolving under the adjoint Liouvillian in open quantum systems can exhibit a genuine Mpemba effect, with general conditions derived and validated across three setups.
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Quantum Mpemba effect in chaotic systems with conservation laws
In chaotic quantum systems with conservation laws, states initially farther from equilibrium can thermalize faster than closer ones via hydrodynamic relaxation differences, realizing the quantum Mpemba effect.
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A Description of the Quantum Mpemba Effect using the Steepest-Entropy-Ascent Quantum Thermodynamics Framework
The quantum Mpemba effect in a three-level system is described using the SEAQT framework with Hilbert space projection and a machine-learning-fitted relaxation parameter.
- Symmetry-Protected Fast Relaxation and the Strong Quantum Mpemba Effect