Strong Mpemba effects in the antiferromagnetic Ising model arise from reentrant phase transitions that allow quenches to selectively avoid or excite the staggered slow relaxation mode in the paramagnetic phase.
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Optimal initial states for non-equilibrium quantum thermometry exhibit the quantum Mpemba effect and thermalize faster than most states in Markovian models.
Driven non-Hermitian systems show an informational Mpemba effect where more mixed initial states reach unit-purity steady states faster than less mixed ones through collective dissipation.
citing papers explorer
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Strong Mpemba Effect Through a Reentrant Phase Transition
Strong Mpemba effects in the antiferromagnetic Ising model arise from reentrant phase transitions that allow quenches to selectively avoid or excite the staggered slow relaxation mode in the paramagnetic phase.
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Quantum Mpemba Effect in Non-Equilibrium Quantum Thermometry
Optimal initial states for non-equilibrium quantum thermometry exhibit the quantum Mpemba effect and thermalize faster than most states in Markovian models.
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Informational Mpemba Effect for Fast State Purification in Non-Hermitian System
Driven non-Hermitian systems show an informational Mpemba effect where more mixed initial states reach unit-purity steady states faster than less mixed ones through collective dissipation.