Geoacoustic emission during the passage through the Earth's crust of high-energy cosmic ray muons
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Authors
Бахтияр Абуталипович Искаков
Dmitriy Beznosko
Виталий Валерьевич Жуков
Турлан Хамзинович Садыков
Назиф Мунипович Салихов
Ернан Мадуарович Таутаев
Александр Леонидович Щепетов
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Journal Article, Academic Journal
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Abstract
English version:<br>The unresolved problem of traditional seismology to date is the separation from the stream of information recorded by numerous seismic sensors of a strictly defined signal about the approach of6 Б.А. Искаков, Д. Безноско, В.В. Жуков и др.a catastrophic earthquake specific in time and space. Such a signal is usually lost against a constant background from a large number of another events. At the turn of the 1980s and 1990s, scientists from the Physics Institute and the Institute of Physics of the Earth developed a preliminary concept for a new promising direction in seismology. Using the signal from elastic vibrations in the acoustic frequency range for earthquake prediction. These signals can be generated by ionization. Ionization is formed at the moment of the passage of high-energy muons through a seismically stressed medium in the deep layers of the earth's crust. It is hoped that this method may be one way to predict earthquakes in the future.