随机斯科维尔--舒尔茨--杜博瓦机器

arXiv - PHYS - Statistical Mechanics Pub Date : 2024-09-06 DOI:arxiv-2409.04124

Fei Liu

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引用次数: 0

摘要

我们在斯科维尔-舒尔茨-杜博瓦（SSDB）机器的量子跃迁轨迹中发现了三种循环：作为制冷机的 R 循环、作为热机的 H 循环以及机器处于中性状态的 N 循环。我们发现，在大时限内，机器是作为热机还是制冷机运行取决于单位时间内 R 循环和 H 循环数量之间的平衡。将热浴温度进一步提高到某个临界值以上并不会增加机器的功率输出。原因在于，在这种情况下，N 循环的概率大于 H 循环和 R 循环。虽然 SSDB 机器通过在这三个循环之间随机切换来运行，但在单量子跃迁轨迹的水平上，其热机效率和冰箱的性能系数保持不变。

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Stochastic Scovil--Schulz-DuBois machine

Three types of cycles are identified in the quantum jump trajectories of the Scovil--Schulz-DuBois (SSDB) machine: an R-cycle as refrigeration, an H-cycle as a heat engine, and an N-cycle in which the machine is neutral. The statistics of these cycles are investigated via a semi-Markov process method. We find that in the large time limit, whether the machine operates as a heat engine or refrigerator depends on a balance between the numbers of R-cycles and H-cycles per unit time. Further increasing the hot bath temperature above a certain threshold does not increase the machine's power output. The cause is that, in this situation, the N-cycle has a greater probability than the H-cycle and R-cycle. Although the SSDB machine operates by randomly switching among these three cycles, at the level of a single quantum jump trajectory, its heat engine efficiency and the refrigerator's coefficient of performance remain constant.

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arXiv - PHYS - Statistical Mechanics

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