Complex heat capacity and entropy production of temperature modulated systems
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Publication:5132095
DOI10.1088/1742-5468/AB2CC9zbMath1457.82328arXiv1905.10306OpenAlexW3106251466MaRDI QIDQ5132095
Publication date: 9 November 2020
Published in: Journal of Statistical Mechanics: Theory and Experiment (Search for Journal in Brave)
Abstract: Non-equilibrium systems under temperature modulation are investigated in the light of the stochastic thermodynamics. We show that, for small amplitudes of the temperature oscillations, the heat flux behaves sinusoidally with time, a result that allows the definition of the complex heat capacity. The real part of the complex heat capacity is the dynamic heat capacity, and its imaginary part is shown to be proportional to the rate of entropy production. We also show that the poles of the complex heat capacity are equal to imaginary unit multiplied by the eigenvalues of the unperturbed evolution operator, and are all located in the lower half plane of the complex frequency, assuring that the Kramers-Kronig relations are obeyed. We have also carried out an exact calculation of the complex heat capacity of a harmonic solid and determined the dispersion relation of the dynamic heat capacity and of the rate of entropy production.
Full work available at URL: https://arxiv.org/abs/1905.10306
Cites Work
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