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Quantum mechanics, common sense and the black hole information paradox

The purpose of this paper is to analyse, in the light of information theory and with the arsenal of (elementary) quantum mechanics (EPR correlations, copying machines, teleportation, mixing produced in sub-systems owing to a trace operation, etc.) the scenarios available on the market to resolve the...

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Detalles Bibliográficos
Autores principales: Danielsson, Ulf H., Schiffer, Marcelo
Lenguaje:eng
Publicado: 1993
Materias:
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.48.4779
http://cds.cern.ch/record/249287
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author Danielsson, Ulf H.
Schiffer, Marcelo
author_facet Danielsson, Ulf H.
Schiffer, Marcelo
author_sort Danielsson, Ulf H.
collection CERN
description The purpose of this paper is to analyse, in the light of information theory and with the arsenal of (elementary) quantum mechanics (EPR correlations, copying machines, teleportation, mixing produced in sub-systems owing to a trace operation, etc.) the scenarios available on the market to resolve the so-called black-hole information paradox. We shall conclude that the only plausible ones are those where either the unitary evolution of quantum mechanics is given up, in which information leaks continuously in the course of black-hole evaporation through non-local processes, or those in which the world is polluted by an infinite number of meta-stable remnants.
id cern-249287
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1993
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spelling cern-2492872023-03-14T17:17:46Zdoi:10.1103/PhysRevD.48.4779http://cds.cern.ch/record/249287engDanielsson, Ulf H.Schiffer, MarceloQuantum mechanics, common sense and the black hole information paradoxGeneral Theoretical PhysicsThe purpose of this paper is to analyse, in the light of information theory and with the arsenal of (elementary) quantum mechanics (EPR correlations, copying machines, teleportation, mixing produced in sub-systems owing to a trace operation, etc.) the scenarios available on the market to resolve the so-called black-hole information paradox. We shall conclude that the only plausible ones are those where either the unitary evolution of quantum mechanics is given up, in which information leaks continuously in the course of black-hole evaporation through non-local processes, or those in which the world is polluted by an infinite number of meta-stable remnants.The purpose of this paper is to analyse, in the light of information theory and with the arsenal of (elementary) quantum mechanics (EPR correlations, copying machines, teleportation, mixing produced in sub-systems owing to a trace operation, etc.) the scenarios available on the market to resolve the so-called black-hole information paradox. We shall conclude that the only plausible ones are those where either the unitary evolution of quantum mechanics is given up, in which information leaks continuously in the course of black-hole evaporation through non-local processes, or those in which the world is polluted by an infinite number of meta-stable remnants.gr-qc/9305012CERN-TH-6889-93CERN-TH-6889-93oai:cds.cern.ch:2492871993
spellingShingle General Theoretical Physics
Danielsson, Ulf H.
Schiffer, Marcelo
Quantum mechanics, common sense and the black hole information paradox
title Quantum mechanics, common sense and the black hole information paradox
title_full Quantum mechanics, common sense and the black hole information paradox
title_fullStr Quantum mechanics, common sense and the black hole information paradox
title_full_unstemmed Quantum mechanics, common sense and the black hole information paradox
title_short Quantum mechanics, common sense and the black hole information paradox
title_sort quantum mechanics, common sense and the black hole information paradox
topic General Theoretical Physics
url https://dx.doi.org/10.1103/PhysRevD.48.4779
http://cds.cern.ch/record/249287
work_keys_str_mv AT danielssonulfh quantummechanicscommonsenseandtheblackholeinformationparadox
AT schiffermarcelo quantummechanicscommonsenseandtheblackholeinformationparadox