热机
角动量
物理
联轴节(管道)
工作(物理)
量子
领域(数学)
方位量子数
轨道运动
性格(数学)
光的轨道角动量
角动量耦合
光学
经典力学
工作产出
总角动量
作者
Aritra Ghosh,Nilamoni Daloi,M. Bhattacharya
出处
期刊:Physical review
[American Physical Society]
日期:2026-01-27
卷期号:113 (2)
摘要
We theoretically propose a quantum heat engine using a setup consisting of a ring-trapped Bose-Einstein condensate placed in a Fabry-Pérot cavity where the optical field carries orbital angular momentum. We first show that the cavity-enhanced light-atom coupling leads to the emergence of polaritonic modes whose character can be reversibly switched between photonlike and phononlike by detuning sweeps, allowing work extraction governed by distinct reservoirs. We investigate the dependence of the engine efficiency on the orbital angular momentum. Beyond ideality, we discuss finite-time scenarios based on shortcuts to adiabaticity such that the efficiency retains its ideal-operation value, despite finite-time operation. Our analysis identifies orbital angular momentum as a control knob that can reconfigure the performance of such quantum heat engines.
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