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Research PaperResearchia:202604.07029

Driving Quantum Heat Engines Beyond Classical Limits through Multilevel Coherence

Hui Wang

Abstract

Quantum coherence provides a controllable thermodynamic resource that can raise or lower the effective temperature of a cavity mode, enabling efficiency tuning in quantum heat engines. Here, we derive analytic expressions for the effective engine temperature, demonstrating the enhanced temperature tunability achievable via $N$-level ground-state coherence. We further unify ground- and excited-state coherence within a single analytic framework, revealing their interplay as a mechanism for thermod...

Submitted: April 7, 2026Subjects: Quantum Physics; Quantum Computing

Description / Details

Quantum coherence provides a controllable thermodynamic resource that can raise or lower the effective temperature of a cavity mode, enabling efficiency tuning in quantum heat engines. Here, we derive analytic expressions for the effective engine temperature, demonstrating the enhanced temperature tunability achievable via $N$ -level ground-state coherence. We further unify ground- and excited-state coherence within a single analytic framework, revealing their interplay as a mechanism for thermodynamic control. Such quantum resources serve as tunable parameters that enable switching between heating, cooling, and cancellation regimes, driving the effective temperature from near-zero to divergence. Ultimately, our framework connects and generalizes previous models of quantum heat engines, and we identify rubidium atoms as a promising candidate for experimentally realizing these coherence-assisted effects.

Source: arXiv:2604.04873v1 - http://arxiv.org/abs/2604.04873v1 PDF: https://arxiv.org/pdf/2604.04873v1 Original Link: http://arxiv.org/abs/2604.04873v1

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