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Main Authors: Zhang, Zi-Yan, Du, Jian-Ying, Zhang, Fu-Lin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.01170
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author Zhang, Zi-Yan
Du, Jian-Ying
Zhang, Fu-Lin
author_facet Zhang, Zi-Yan
Du, Jian-Ying
Zhang, Fu-Lin
contents Subsystems of a composite system in a pure state generally exist in mixed states and undergo changes with the overall state. This phenomenon arises from the coherence of the entire system and represents a crucial distinction between quantum and classical systems. Such a quantum property can enhance the work of an Otto heat engine, where two coupled qubits serve as the working substance, allowing situations in which negative work output initially occurred to now yield positive work. We utilize the imagery of Maxwell's demon to explain the reason for positive work in this Otto cycle, attributing it to the increased coherence after the mutual measurement of the two subsystems. Conversely, the quantum measurement-erase cycle typically outputs negative work, attributed to the decoherence of the instrument during the measurement process.
format Preprint
id arxiv_https___arxiv_org_abs_2402_01170
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Maxwell demon with anti-decoherence
Zhang, Zi-Yan
Du, Jian-Ying
Zhang, Fu-Lin
Quantum Physics
Subsystems of a composite system in a pure state generally exist in mixed states and undergo changes with the overall state. This phenomenon arises from the coherence of the entire system and represents a crucial distinction between quantum and classical systems. Such a quantum property can enhance the work of an Otto heat engine, where two coupled qubits serve as the working substance, allowing situations in which negative work output initially occurred to now yield positive work. We utilize the imagery of Maxwell's demon to explain the reason for positive work in this Otto cycle, attributing it to the increased coherence after the mutual measurement of the two subsystems. Conversely, the quantum measurement-erase cycle typically outputs negative work, attributed to the decoherence of the instrument during the measurement process.
title Maxwell demon with anti-decoherence
topic Quantum Physics
url https://arxiv.org/abs/2402.01170