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Paper detail

Entropy exchange and thermal fluctuations in the Jaynes-Cummings model

The time-dependence of the quantum entropy for a two-level atom interacting with a single-cavity mode is computed using the Jaynes-Cummings model, when the initial state of the radiation field is prepared in a thermal state with temperature fluctuations. In order to describe the out-of-equilibrium situation, the Super Statistics approximation is implemented so that the gamma and the multi-level distribution functions are used to introduce the inverse temperature fluctuations. In the case of the gamma distribution, paralleling the Tsallis non-additive formalism, the entropy for the system is computed with the $q$-logarithm prescription, and the impact of the initial state of the atom is also taken into account. The results show that, in the first distribution, the $q$-parameter (related to the thermal fluctuations) modifies the partial entropies appreciably. In contrast, the way the inverse temperatures are distributed in the second one may lead to changes in the entropy functions.

preprint2021arXivOpen access
Jorge David Castaño-Yepes
quant-ph
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Jorge David Castaño-Yepes

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