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Autori principali: Cusumano, Stefano, De Chiara, Gabriele
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2307.07463
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author Cusumano, Stefano
De Chiara, Gabriele
author_facet Cusumano, Stefano
De Chiara, Gabriele
contents Quantum collision models normally consist of a system interacting with a set of ancillary units representing the environment. While these ancillary systems are usually assumed to be either two level systems (TLS) or harmonic oscillators, in this work we move further and represent each ancillary system as a structured system, i.e., a system made out of two or more subsystems. We show how this scenario modifies the kind of master equation that one can obtain for the evolution of the open systems. Moreover, we are able to consider a situation where the ancilla state is thermal yet has some coherence. This allows the generation of coherence in the steady state of the open system and, thanks to the simplicity of the collision model, this allows us to better understand the thermodynamic cost of creating coherence in a system. Specifically, we show that letting the system interact with the coherent degrees of freedom requires a work cost, leading to the natural fulfillment of the first and second law of thermodynamics without the necessity of {\it ad hoc} formulations.
format Preprint
id arxiv_https___arxiv_org_abs_2307_07463
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Structured quantum collision models: generating coherence with thermal resources
Cusumano, Stefano
De Chiara, Gabriele
Quantum Physics
Quantum collision models normally consist of a system interacting with a set of ancillary units representing the environment. While these ancillary systems are usually assumed to be either two level systems (TLS) or harmonic oscillators, in this work we move further and represent each ancillary system as a structured system, i.e., a system made out of two or more subsystems. We show how this scenario modifies the kind of master equation that one can obtain for the evolution of the open systems. Moreover, we are able to consider a situation where the ancilla state is thermal yet has some coherence. This allows the generation of coherence in the steady state of the open system and, thanks to the simplicity of the collision model, this allows us to better understand the thermodynamic cost of creating coherence in a system. Specifically, we show that letting the system interact with the coherent degrees of freedom requires a work cost, leading to the natural fulfillment of the first and second law of thermodynamics without the necessity of {\it ad hoc} formulations.
title Structured quantum collision models: generating coherence with thermal resources
topic Quantum Physics
url https://arxiv.org/abs/2307.07463