In this work, we investigate the heat flow of two interacting quantum systems on the perspective of noncommutativity phase-space effects and show that by controlling the new constants introduced in the quantum theory, due to a deformed Heisenberg-Weyl algebra, the heat flow from the hot to the cold system may be enhanced, thus decreasing the time required to reach thermal equilibrium. We also give a brief discussion on the robustness of the second law of thermodynamics in the context of noncommutative quantum mechanics

中文翻译：

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相空间中的热流和非对易量子力学

在这项工作中，我们从非交换性相空间效应的角度研究了两个相互作用的量子系统的热流，并表明通过控制量子理论中引入的新常数，由于变形的海森堡 - 外尔代数，来自热到冷的系统可以增强，从而减少达到热平衡所需的时间。我们还简要讨论了非对易量子力学背景下热力学第二定律的稳健性