Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment

Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment

Multi-braneworld universe is at the heart of many scenarios of physics beyond the Standard Model and the cosmological model ΛCDM. It is thus an important concern to constrain these scenarios which also allow for experiments below the GeV scale. MURMUR is a new neutron passing-through-walls experimen...

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Bibliographic Details
Main Authors: Stasser Coraline, Sarrazin Michaél, Terwagne Guy
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:EPJ Web of Conferences
Online Access:https://www.epj-conferences.org/articles/epjconf/pdf/2019/24/epjconf-ppns2019_07004.pdf
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spelling doaj-e803c594e236491988049cb16add1f462021-08-02T17:55:32ZengEDP SciencesEPJ Web of Conferences2100-014X2019-01-012190700410.1051/epjconf/201921907004epjconf-ppns2019_07004Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experimentStasser Coraline0Sarrazin MichaélTerwagne Guy1The MURMUR collaboration, Laboratory of Analysis by Nuclear Reaction, Department of physics, University of NamurThe MURMUR collaboration, Laboratory of Analysis by Nuclear Reaction, Department of physics, University of NamurMulti-braneworld universe is at the heart of many scenarios of physics beyond the Standard Model and the cosmological model ΛCDM. It is thus an important concern to constrain these scenarios which also allow for experiments below the GeV scale. MURMUR is a new neutron passing-through-walls experiment designed to constrain neutron-hidden neutron transitions in the context of braneworlds scenarios. As our visible universe could be a 3-brane embedded in a multidimensional bulk, adjacent hidden 3-branes are often expected. Their existence can be constrained as matter exchange between braneworlds must occur with a swapping probability p. A neutron n can convert into a hidden neutron n′ when scattered by a nucleus with cross section σ(n → n′) ∝ σE(n → n)p, where σE is the usual elastic cross-section. Hidden neutrons could therefore be generated in the moderator medium of a nuclear reactor, where high-flux neutrons undergo many elastic collisions. All the theoretical and technological keys of this experiment soon to be installed at the nuclear research reactor BR2 (SCK.CEN, Mol, Belgium) are introduced.https://www.epj-conferences.org/articles/epjconf/pdf/2019/24/epjconf-ppns2019_07004.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Stasser Coraline
Sarrazin Michaél
Terwagne Guy
spellingShingle Stasser Coraline
Sarrazin Michaél
Terwagne Guy
Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
EPJ Web of Conferences
author_facet Stasser Coraline
Sarrazin Michaél
Terwagne Guy
author_sort Stasser Coraline
title Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
title_short Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
title_full Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
title_fullStr Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
title_full_unstemmed Search for neutron-hidden neutron interbrane transitions with MURMUR, a low-noise neutron passing-through-walls experiment
title_sort search for neutron-hidden neutron interbrane transitions with murmur, a low-noise neutron passing-through-walls experiment
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2019-01-01
description Multi-braneworld universe is at the heart of many scenarios of physics beyond the Standard Model and the cosmological model ΛCDM. It is thus an important concern to constrain these scenarios which also allow for experiments below the GeV scale. MURMUR is a new neutron passing-through-walls experiment designed to constrain neutron-hidden neutron transitions in the context of braneworlds scenarios. As our visible universe could be a 3-brane embedded in a multidimensional bulk, adjacent hidden 3-branes are often expected. Their existence can be constrained as matter exchange between braneworlds must occur with a swapping probability p. A neutron n can convert into a hidden neutron n′ when scattered by a nucleus with cross section σ(n → n′) ∝ σE(n → n)p, where σE is the usual elastic cross-section. Hidden neutrons could therefore be generated in the moderator medium of a nuclear reactor, where high-flux neutrons undergo many elastic collisions. All the theoretical and technological keys of this experiment soon to be installed at the nuclear research reactor BR2 (SCK.CEN, Mol, Belgium) are introduced.
url https://www.epj-conferences.org/articles/epjconf/pdf/2019/24/epjconf-ppns2019_07004.pdf
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AT terwagneguy searchforneutronhiddenneutroninterbranetransitionswithmurmuralownoiseneutronpassingthroughwallsexperiment
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