工作(物理)
卡帕
存水弯(水管)
有界函数
刚度
布朗运动
数学
价值(数学)
谐波
完整的
物理
组合数学
数学分析
统计物理学
热力学
量子力学
几何学
统计
气象学
作者
Carlos A. Plata,David Guéry-Odelin,Emmanuel Trizac,A. Prados
出处
期刊:Physical review
[American Physical Society]
日期:2019-01-25
卷期号:99 (1): 012140-012140
被引量:39
标识
DOI:10.1103/physreve.99.012140
摘要
We apply Pontryagin's principle to drive rapidly a trapped overdamped Brownian particle in contact with a thermal bath between two equilibrium states corresponding to different trap stiffness κ. We work out the optimal time dependence κ(t) by minimizing the work performed on the particle under the nonholonomic constraint 0≤κ≤κ_{max}, an experimentally relevant situation. Several important differences arise, as compared with the case of unbounded stiffness that has been analyzed in the literature. First, two arbitrary equilibrium states may not always be connected. Second, depending on the operating time t_{f} and the desired compression ratio κ_{f}/κ_{i}, different types of solutions emerge. Finally, the differences in the minimum value of the work brought about by the bounds may become quite large, which may have a relevant impact on the optimization of heat engines.
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