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Autori principali: Wang, Hui, Giacomini, Flaminia, Nori, Franco, Blencowe, Miles P.
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2306.00347
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author Wang, Hui
Giacomini, Flaminia
Nori, Franco
Blencowe, Miles P.
author_facet Wang, Hui
Giacomini, Flaminia
Nori, Franco
Blencowe, Miles P.
contents In physics, it is crucial to identify operational measurement procedures to give physical meaning to abstract quantities. There has been significant effort to define time operationally using quantum systems, but the same has not been achieved for space. Developing an operational procedure to obtain information about the location of a quantum system is particularly important for a theory combining general relativity and quantum theory, which cannot rest on the classical notion of spacetime. Here, we take a first step towards this goal, and introduce a model to describe an extended material quantum system working as a position measurement device. Such a "quantum ruler" is composed of $N$ harmonically interacting dipoles and serves as a (quantum) reference system for the position of another quantum system. We show that we can define a quantum measurement procedure corresponding to the "superposition of positions", and that by performing this measurement we can distinguish when the quantum system is in a coherent or incoherent superposition in the position basis. The model is fully relational, because the only meaningful variables are the relative positions between the ruler and the system, and the measurement is expressed in terms of an interaction between the measurement device and the measured system.
format Preprint
id arxiv_https___arxiv_org_abs_2306_00347
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Relational superposition measurements with a material quantum ruler
Wang, Hui
Giacomini, Flaminia
Nori, Franco
Blencowe, Miles P.
Quantum Physics
In physics, it is crucial to identify operational measurement procedures to give physical meaning to abstract quantities. There has been significant effort to define time operationally using quantum systems, but the same has not been achieved for space. Developing an operational procedure to obtain information about the location of a quantum system is particularly important for a theory combining general relativity and quantum theory, which cannot rest on the classical notion of spacetime. Here, we take a first step towards this goal, and introduce a model to describe an extended material quantum system working as a position measurement device. Such a "quantum ruler" is composed of $N$ harmonically interacting dipoles and serves as a (quantum) reference system for the position of another quantum system. We show that we can define a quantum measurement procedure corresponding to the "superposition of positions", and that by performing this measurement we can distinguish when the quantum system is in a coherent or incoherent superposition in the position basis. The model is fully relational, because the only meaningful variables are the relative positions between the ruler and the system, and the measurement is expressed in terms of an interaction between the measurement device and the measured system.
title Relational superposition measurements with a material quantum ruler
topic Quantum Physics
url https://arxiv.org/abs/2306.00347