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Main Authors: Wojewódka-Ściążko, Hanna, Puchała, Zbigniew, Korzekwa, Kamil
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2304.09559
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author Wojewódka-Ściążko, Hanna
Puchała, Zbigniew
Korzekwa, Kamil
author_facet Wojewódka-Ściążko, Hanna
Puchała, Zbigniew
Korzekwa, Kamil
contents In this paper we aim to push the analogy between thermodynamics and quantum resource theories one step further. Previous inspirations were based predominantly on thermodynamic considerations concerning scenarios with a single heat bath, neglecting an important part of thermodynamics that studies heat engines operating between two baths at different temperatures. Here, we investigate the performance of resource engines, which replace the access to two heat baths at different temperatures with two arbitrary constraints on state transformations. The idea is to imitate the action of a two--stroke heat engine, where the system is sent to two agents (Alice and Bob) in turns, and they can transform it using their constrained sets of free operations. We raise and address several questions, including whether or not a resource engine can generate a full set of quantum operations or all possible state transformations, and how many strokes are needed for that. We also explain how the resource engine picture provides a natural way to fuse two or more resource theories, and we discuss in detail the fusion of two resource theories of thermodynamics with two different temperatures, and two resource theories of coherence with respect to two different bases.
format Preprint
id arxiv_https___arxiv_org_abs_2304_09559
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Resource engines
Wojewódka-Ściążko, Hanna
Puchała, Zbigniew
Korzekwa, Kamil
Quantum Physics
In this paper we aim to push the analogy between thermodynamics and quantum resource theories one step further. Previous inspirations were based predominantly on thermodynamic considerations concerning scenarios with a single heat bath, neglecting an important part of thermodynamics that studies heat engines operating between two baths at different temperatures. Here, we investigate the performance of resource engines, which replace the access to two heat baths at different temperatures with two arbitrary constraints on state transformations. The idea is to imitate the action of a two--stroke heat engine, where the system is sent to two agents (Alice and Bob) in turns, and they can transform it using their constrained sets of free operations. We raise and address several questions, including whether or not a resource engine can generate a full set of quantum operations or all possible state transformations, and how many strokes are needed for that. We also explain how the resource engine picture provides a natural way to fuse two or more resource theories, and we discuss in detail the fusion of two resource theories of thermodynamics with two different temperatures, and two resource theories of coherence with respect to two different bases.
title Resource engines
topic Quantum Physics
url https://arxiv.org/abs/2304.09559