Three different forms of energy might be used as earthquake precursors for environmental protection against seismicity. At the tectonic scale, Acoustic Emission (AE) prevails, as well as Electro-Magnetic Emission (EME) at the intermediate scales, and Neutron Emission (NE) at the nano-scale. TeraHertz pressure waves are in fact produced at the last extremely small scale, and fracture experiments on natural rocks have recently demonstrated that these high-frequency waves are able to induce nuclear fission reactions with neutron and/or alpha particle emissions. The same phenomenon appears to have occurred in several different situations and to explain puzzles related to the history of our planet, like the ocean formation or the primordial carbon pollution. In addition, very important applications to earthquake precursors can be proposed. The authors present the results they are obtaining at a gypsum mine located in Northern Italy. In this mine, to avoid interference with human activities, the instrumental control units have been located at 100 m underground. The experimental results obtained from July 1st, 2013 to December 31, 2015 (five semesters) are analyzed by means of a suitable multi-modal statistics. The experimental observations reveal a strong correlation between the three fracto-emission peaks (acoustic, electromagnetic, neutron) and the major earthquakes occurring in the closest areas.

Nanomechanics instabilities and TeraHertz vibrations: From geochemical evolution to fracto-emission seismic precursors / Carpinteri, A.; Borla, O.. - ELETTRONICO. - 5:(2018), pp. 1-5. (Intervento presentato al convegno Annual Conference and Exposition on Experimental and Applied Mechanics, 2017 tenutosi a usa nel 2017) [10.1007/978-3-319-63405-0_1].

Nanomechanics instabilities and TeraHertz vibrations: From geochemical evolution to fracto-emission seismic precursors

Carpinteri, A.;Borla, O.
2018

Abstract

Three different forms of energy might be used as earthquake precursors for environmental protection against seismicity. At the tectonic scale, Acoustic Emission (AE) prevails, as well as Electro-Magnetic Emission (EME) at the intermediate scales, and Neutron Emission (NE) at the nano-scale. TeraHertz pressure waves are in fact produced at the last extremely small scale, and fracture experiments on natural rocks have recently demonstrated that these high-frequency waves are able to induce nuclear fission reactions with neutron and/or alpha particle emissions. The same phenomenon appears to have occurred in several different situations and to explain puzzles related to the history of our planet, like the ocean formation or the primordial carbon pollution. In addition, very important applications to earthquake precursors can be proposed. The authors present the results they are obtaining at a gypsum mine located in Northern Italy. In this mine, to avoid interference with human activities, the instrumental control units have been located at 100 m underground. The experimental results obtained from July 1st, 2013 to December 31, 2015 (five semesters) are analyzed by means of a suitable multi-modal statistics. The experimental observations reveal a strong correlation between the three fracto-emission peaks (acoustic, electromagnetic, neutron) and the major earthquakes occurring in the closest areas.
2018
9783319634043
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2731299
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