Self-organised localisation

A bstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field subject to large fluctuations during inflation, quantum phase transitions can act as dynamical attractors. As a result, the theory par...

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Published inThe journal of high energy physics Vol. 2021; no. 10; pp. 1 - 97
Main Authors Giudice, Gian F., McCullough, Matthew, You, Tevong
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 12.10.2021
Springer Nature B.V
SpringerOpen
Subjects
Beyond Standard Model
Classical and Quantum Gravitation
Cosmological constant
Cosmology
Elementary Particles
Higgs Physics
High energy physics
Localization
Parameters
Phase transitions
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
Scalars
String Theory
Beyond Standard Model
Higgs Physics
Online AccessGet full text
ISSN1029-8479
1126-6708
1127-2236
1029-8479
DOI10.1007/JHEP10(2021)093

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Abstract A bstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field subject to large fluctuations during inflation, quantum phase transitions can act as dynamical attractors. As a result, the theory parameters are probabilistically localised around the critical value and the Universe finds itself at the edge of a phase transition. We illustrate how self-organised localisation could account for the observed near-criticality of the Higgs self-coupling, the naturalness of the Higgs mass, or the smallness of the cosmological constant.
AbstractList A bstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field subject to large fluctuations during inflation, quantum phase transitions can act as dynamical attractors. As a result, the theory parameters are probabilistically localised around the critical value and the Universe finds itself at the edge of a phase transition. We illustrate how self-organised localisation could account for the observed near-criticality of the Higgs self-coupling, the naturalness of the Higgs mass, or the smallness of the cosmological constant.
We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field subject to large fluctuations during inflation, quantum phase transitions can act as dynamical attractors. As a result, the theory parameters are probabilistically localised around the critical value and the Universe finds itself at the edge of a phase transition. We illustrate how self-organised localisation could account for the observed near-criticality of the Higgs self-coupling, the naturalness of the Higgs mass, or the smallness of the cosmological constant.
Abstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field subject to large fluctuations during inflation, quantum phase transitions can act as dynamical attractors. As a result, the theory parameters are probabilistically localised around the critical value and the Universe finds itself at the edge of a phase transition. We illustrate how self-organised localisation could account for the observed near-criticality of the Higgs self-coupling, the naturalness of the Higgs mass, or the smallness of the cosmological constant.
ArticleNumber 93
Author Giudice, Gian F.
McCullough, Matthew
You, Tevong
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  fullname: Giudice, Gian F.
  organization: Theoretical Physics Department, CERN
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  givenname: Matthew
  surname: McCullough
  fullname: McCullough, Matthew
  organization: Theoretical Physics Department, CERN, Department of Applied Mathematics and Theoretical Physics, University of Cambridge
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  givenname: Tevong
  orcidid: 0000-0003-2391-7463
  surname: You
  fullname: You, Tevong
  email: Tevong.you@cern.ch
  organization: Theoretical Physics Department, CERN, Department of Applied Mathematics and Theoretical Physics, University of Cambridge, Cavendish Laboratory, University of Cambridge
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Snippet A bstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar...
We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar field...
Abstract We describe a new phenomenon in quantum cosmology: self-organised localisation. When the fundamental parameters of a theory are functions of a scalar...
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SubjectTerms Beyond Standard Model
Classical and Quantum Gravitation
Cosmological constant
Cosmology
Elementary Particles
Higgs Physics
High energy physics
Localization
Parameters
Phase transitions
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
Scalars
String Theory
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Title Self-organised localisation
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