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Main Authors: Del Santo, Flavio, Manzano, Gonzalo, Brukner, Caslav
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.06279
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_version_ 1866911222175105024
author Del Santo, Flavio
Manzano, Gonzalo
Brukner, Caslav
author_facet Del Santo, Flavio
Manzano, Gonzalo
Brukner, Caslav
contents Wigner's friend experiment and its modern extensions display the ambiguity of the quantum mechanical description regarding the assignment of quantum states. While the friend applies the state-update rule to the system upon observing an outcome of her measurement in a quantum system, Wigner describes the friend's measurement as a unitary evolution, resulting in an entangled state for the composite system of the friend and the system. In this respect, Wigner is often referred to as a "superobserver" who has the supreme technological ability to keep the friend's laboratory coherent. As such, it is often argued that he has the "correct" description of the state. Here we show that the situation is more symmetrical than is usually thought: there are different types of information that each of the observers has that the other fundamentally cannot have - they reside in different "bubbles" (in Calvalcanti's terminology). While this can explain why the objectivity of the state assignment is only relative to the bubble, we consider more elaborated situations in the form of a game in which the players can switch between bubbles. We find that, in certain circumstances, observers may be entitled to adopt and verify the state assignment from another bubble if they condition their predictions on \textit{all} information that is in principle available to them.
format Preprint
id arxiv_https___arxiv_org_abs_2407_06279
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Wigner's friend scenarios: on what to condition and how to verify the predictions
Del Santo, Flavio
Manzano, Gonzalo
Brukner, Caslav
Quantum Physics
Wigner's friend experiment and its modern extensions display the ambiguity of the quantum mechanical description regarding the assignment of quantum states. While the friend applies the state-update rule to the system upon observing an outcome of her measurement in a quantum system, Wigner describes the friend's measurement as a unitary evolution, resulting in an entangled state for the composite system of the friend and the system. In this respect, Wigner is often referred to as a "superobserver" who has the supreme technological ability to keep the friend's laboratory coherent. As such, it is often argued that he has the "correct" description of the state. Here we show that the situation is more symmetrical than is usually thought: there are different types of information that each of the observers has that the other fundamentally cannot have - they reside in different "bubbles" (in Calvalcanti's terminology). While this can explain why the objectivity of the state assignment is only relative to the bubble, we consider more elaborated situations in the form of a game in which the players can switch between bubbles. We find that, in certain circumstances, observers may be entitled to adopt and verify the state assignment from another bubble if they condition their predictions on \textit{all} information that is in principle available to them.
title Wigner's friend scenarios: on what to condition and how to verify the predictions
topic Quantum Physics
url https://arxiv.org/abs/2407.06279