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Auteurs principaux: de Melo, Fernando, Carvalho, Gabriel Dias, Correia, Pedro S., Obando, Paola Concha, de Oliveira, Thiago R., Vallejos, Raúl O.
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2411.07327
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author de Melo, Fernando
Carvalho, Gabriel Dias
Correia, Pedro S.
Obando, Paola Concha
de Oliveira, Thiago R.
Vallejos, Raúl O.
author_facet de Melo, Fernando
Carvalho, Gabriel Dias
Correia, Pedro S.
Obando, Paola Concha
de Oliveira, Thiago R.
Vallejos, Raúl O.
contents Quantum mechanics started out as a theory to describe the smallest scales of energy in Nature. After a hundred years of development it is now routinely employed to describe, among others, quantum computers with thousands of qubits. This tremendous progress turns the debate of foundational questions into a technological imperative. In what follows we introduce a model of a quantum measurement process that consistently includes the impact of having access only to finite resources when describing a macroscopic system, like a measurement apparatus. Leveraging modern tools from equilibration of closed systems and typicality, we show how the measurement collapse can be seen as an effective description of a closed dynamics, of which we do not know all its details. Our model is then exploited to address the ``Wigner Friend Scenario'', and we observe that an agreement is reached when both Wigner and his friend acknowledge their finite resources perspective and describe the measurement process accordingly.
format Preprint
id arxiv_https___arxiv_org_abs_2411_07327
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A finite-resources description of a measurement process and its implications for the "Wigner's Friend" scenario
de Melo, Fernando
Carvalho, Gabriel Dias
Correia, Pedro S.
Obando, Paola Concha
de Oliveira, Thiago R.
Vallejos, Raúl O.
Quantum Physics
Quantum mechanics started out as a theory to describe the smallest scales of energy in Nature. After a hundred years of development it is now routinely employed to describe, among others, quantum computers with thousands of qubits. This tremendous progress turns the debate of foundational questions into a technological imperative. In what follows we introduce a model of a quantum measurement process that consistently includes the impact of having access only to finite resources when describing a macroscopic system, like a measurement apparatus. Leveraging modern tools from equilibration of closed systems and typicality, we show how the measurement collapse can be seen as an effective description of a closed dynamics, of which we do not know all its details. Our model is then exploited to address the ``Wigner Friend Scenario'', and we observe that an agreement is reached when both Wigner and his friend acknowledge their finite resources perspective and describe the measurement process accordingly.
title A finite-resources description of a measurement process and its implications for the "Wigner's Friend" scenario
topic Quantum Physics
url https://arxiv.org/abs/2411.07327