3D Muography for the Search of Hidden Cavities

Muography (or muon radiography) is a technique that exploits the penetration capability of muons, elementary particles similar to electrons but with a mass about 200 times larger. High energy muons are naturally produced in the interactions of cosmic rays with the Earth atmosphere. The measurement o...

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Veröffentlicht in:	Scientific reports 2019-02, Vol.9 (1), p.2974-2974, Article 2974
Hauptverfasser:	Cimmino, Luigi, Baccani, Guglielmo, Noli, Pasquale, Amato, Lucio, Ambrosino, Fabio, Bonechi, Lorenzo, Bongi, Massimo, Ciulli, Vitaliano, D’Alessandro, Raffaello, D’Errico, Mariaelena, Gonzi, Sandro, Melon, Barbara, Minin, Gianluca, Saracino, Giulio, Scognamiglio, Luca, Strolin, Paolo, Viliani, Lorenzo
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Schlagworte:	639/766/419/1131 639/766/930/2735 Cavities Civil engineering Cosmic radiation Cosmic rays Geological structures Humanities and Social Sciences multidisciplinary Radiography Science Science (multidisciplinary) Underground structures
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creator	Cimmino, Luigi Baccani, Guglielmo Noli, Pasquale Amato, Lucio Ambrosino, Fabio Bonechi, Lorenzo Bongi, Massimo Ciulli, Vitaliano D’Alessandro, Raffaello D’Errico, Mariaelena Gonzi, Sandro Melon, Barbara Minin, Gianluca Saracino, Giulio Scognamiglio, Luca Strolin, Paolo Viliani, Lorenzo
description	Muography (or muon radiography) is a technique that exploits the penetration capability of muons, elementary particles similar to electrons but with a mass about 200 times larger. High energy muons are naturally produced in the interactions of cosmic rays with the Earth atmosphere. The measurement of their absorption in matter allows the imaging of the inner structure of large bodies. The technological developments in the detection of elementary particles have opened the way to its application in various fields, such as archaeology, studies of geological structures, civil engineering and security issues. We have developed a new approach to the three-dimensional muography of underground structures, capable of directly localising hidden cavities and of reconstructing their shape in space. Our measurements at Mt. Echia, the site of the earliest settlement of the city of Naples in the 8th century BC, have led us to the discovery of a hidden underground cavity, whose existence was not evident with the usual two-dimensional muography graphs. We demonstrate here that our original approach definitely enhances muography discovery potential, especially in case of complex underground systems.
doi_str_mv	10.1038/s41598-019-39682-5
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High energy muons are naturally produced in the interactions of cosmic rays with the Earth atmosphere. The measurement of their absorption in matter allows the imaging of the inner structure of large bodies. The technological developments in the detection of elementary particles have opened the way to its application in various fields, such as archaeology, studies of geological structures, civil engineering and security issues. We have developed a new approach to the three-dimensional muography of underground structures, capable of directly localising hidden cavities and of reconstructing their shape in space. Our measurements at Mt. Echia, the site of the earliest settlement of the city of Naples in the 8th century BC, have led us to the discovery of a hidden underground cavity, whose existence was not evident with the usual two-dimensional muography graphs. 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subjects	639/766/419/1131 639/766/930/2735 Cavities Civil engineering Cosmic radiation Cosmic rays Geological structures Humanities and Social Sciences multidisciplinary Radiography Science Science (multidisciplinary) Underground structures
title	3D Muography for the Search of Hidden Cavities
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