Entanglement asymmetry, which serves as a diagnostic tool for symmetry breaking and a
proxy for thermalization, has recently been proposed and studied in the context of symmetry …

We investigate the quantum Mpemba effect from the perspective of nonequilibrium quantum
thermodynamics by studying relaxation dynamics of quantum systems coupled to a …

We generalize the classical thermal Mpemba effect (where an initially hot system relaxes
faster to the final equilibrium state than a cold one) to open quantum systems coupled to …

The nonequilibrium dynamics of quantum many-body systems have attracted growing
attention due to various intriguing phenomena absent in equilibrium physics. One famous …

Recently, the entanglement asymmetry emerged as an informative tool to understand
dynamical symmetry restoration in out-of-equilibrium quantum many-body systems after a …

The behavior of systems far from equilibrium is often complex and unpredictable,
challenging and sometimes overturning the physical intuition derived from equilibrium …

The Mpemba effect is a counterintuitive physical phenomenon where a hot system cools
faster than a warm one. In recent years, theoretical analyses of the Mpemba effect have …

The Mpemba effect (MPE), named after a student who first observed the phenomenon, has
intrigued scientists for decades by showing that hot liquid can freeze faster than cold under …

Despite extensive research, the fundamental physical mechanisms underlying the Mpemba
effect, a phenomenon where a substance cools faster after initially being heated, remain …

We theoretically study the open quantum system dynamics (in the Trotterized limit) of
integrable quantum circuits in the presence of onsite dephasing noise with a spin-$\frac …