Macroscopic Thermodynamic Framework for the Mpemba Effect
Abstract
The counterintuitive Mpemba effect, wherein a hotter system cools faster, critically lacks a general macroscopic theory. Here, starting from linear irreversible thermodynamics, we formulate a generalized Newton's cooling law, dT/dt = -[γ0 + MQ(t)](T-Tr), for a system at temperature T relaxing in a thermal reservoir at Tr, where the bare relaxation rate γ0 is modified by an initial-state memory term, Q(t) T(0)-Tr. Arising from the interplay between heat flux and structural evolution, the coefficient M governs anomalous relaxation behaviors, where M > 0 (M < 0) induces the (inverse) Mpemba effect. This universal thermodynamic framework maps out phase diagram to provide general criteria for the Mpemba effect in complex systems, offering a macroscopic picture that bridges disparate microscopic approaches.
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