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Paper detail

Controllable diatomic molecular quantum thermodynamic machines

We present quantum heat machines using a diatomic molecule modelled by a $q$-deformed potential as a working medium. We analyze the effect of the deformation parameter and other potential parameters on the work output and efficiency of the quantum Otto and quantum Carnot heat cycles. Furthermore, we derive the analytical expressions of work and efficiency as a function of these parameters. Interestingly, our system operates as a quantum heat engine across the range of parameters considered. In addition, the efficiency of the quantum Otto heat engine is seen to be tunable by the deformation parameter. Our findings provide useful insight for understanding the impact of anharmonicity on the design of quantum thermal machines.

preprint2026arXivOpen access
C. O. EdetE. P. InyangO. AbahN. Ali
cond-mat.stat-mechcond-mat.mes-hallmath-phmath.MPquant-ph
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C. O. EdetE. P. InyangO. AbahN. Ali

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