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Main Authors: Molitor, Otavio A. D., Rudnicki, Łukasz
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.10730
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author Molitor, Otavio A. D.
Rudnicki, Łukasz
author_facet Molitor, Otavio A. D.
Rudnicki, Łukasz
contents In recent years many works have explored possible advantages of indefinite causal order, with the main focus on its controlled implementation known as quantum switch. In this paper, we tackle advantages in quantum thermodynamics, studying whether quantum switch is capable of activating a passive state: either alone or with extra resources (active control state) and/or operations (measurement of the control system). By disproving the first possibility and confirming the second one, we show that quantum switch is not a thermodynamic resource in the discussed context, though, it can facilitate work extraction given external resources. We discuss our findings by considering specific examples: a qubit system subject to rotations around the x and y axes in the Bloch sphere, as well as general unitaries from the U(2) group; and the system as a quantum harmonic oscillator with displacement operators, and with a combination of displacement and squeeze operators.
format Preprint
id arxiv_https___arxiv_org_abs_2402_10730
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum switch as a thermodynamic resource in the context of passive states
Molitor, Otavio A. D.
Rudnicki, Łukasz
Quantum Physics
In recent years many works have explored possible advantages of indefinite causal order, with the main focus on its controlled implementation known as quantum switch. In this paper, we tackle advantages in quantum thermodynamics, studying whether quantum switch is capable of activating a passive state: either alone or with extra resources (active control state) and/or operations (measurement of the control system). By disproving the first possibility and confirming the second one, we show that quantum switch is not a thermodynamic resource in the discussed context, though, it can facilitate work extraction given external resources. We discuss our findings by considering specific examples: a qubit system subject to rotations around the x and y axes in the Bloch sphere, as well as general unitaries from the U(2) group; and the system as a quantum harmonic oscillator with displacement operators, and with a combination of displacement and squeeze operators.
title Quantum switch as a thermodynamic resource in the context of passive states
topic Quantum Physics
url https://arxiv.org/abs/2402.10730