Is a Shock Wave a Source of Seismic Events? Physics, Mechanics, and Kinematics of Mega-Earthquakes

Geophysics eJournal Pub Date : 2019-11-05 DOI:10.2139/ssrn.3481456

S. Bychkov

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Abstract

The theory of Mr. Reid’s Elastic recoil, which interprets the origin of earthquakes as the emission of elastic deformation of rocks of the earth's crust, is a sketchy description and is not able to explain in detail the mechanism of earthquakes. This applies not only to the description of exotic types of tremors, such as frost quakes, but also to the classics of Elastic recoil associated with the movement of tectonic plates: seismic events at great depths, an earthquake swarm of a tectonic and volcanic nature. The most important part of seismological research, mega earthquakes with their colossal energy release, does not fit into the framework of the theory of Elastic recoil. For example, the power of the Great Chilean earthquake of 1960 was equivalent to an explosion of 32 billion tons of TNT or 1.33 × 1020 J, which is comparable to the world electricity consumption in 2005 (5⋅1020 J). The energy of a nuclear bomb explosion over Hiroshima was ≈ 15 Kt TNT, which corresponds to the complete conversion into energy less than 1 gram of matter: {15 Kt TNT = 63⋅1012 J, E = mc2, m = E / c2 = 63⋅1012 J. / (3⋅108 m / s) 2 = 0.7 g.} Accordingly, during the Great Chilean earthquake, 1477770 grams of the matter was converted into energy! The calculated figures clearly demonstrate the incomparability of the mechanical strength of terrestrial rocks with such an energy level. Therefore, the question arises: if the source of the earthquake does not have the physical ability to achieve such an energy level, then what is the source of gig earthquakes? We propose to go beyond the theory of Elastic recoil and imagine that an earthquake is generated by a force that suddenly appears in the bowels of the earth and is not related to the forces of elasticity. In this case, the physics and mechanism of earthquakes become easily explainable and simulated. This paper discusses the hypothesis where a shock wave acts as the source of earthquakes and in some case can generate plasma and a thermonuclear reaction. As an example, the physics and mechanics of the occurrence of the mega earthquakes, swarm earthquakes of tectonic, volcanic and deep-focus earthquakes are shown.

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冲击波是地震事件的来源吗?大地震的物理、力学和运动学

里德先生的弹性反冲理论将地震的起源解释为地壳岩石的弹性变形的发射，这是一种粗略的描述，不能详细解释地震的机制。这不仅适用于描述奇特类型的地震，如霜震，而且也适用于与构造板块运动有关的经典弹性反冲:深度地震事件，构造和火山性质的地震群。具有巨大能量释放的特大地震是地震学研究中最重要的部分，它不适合弹性反冲理论的框架。例如，1960年智利大地震的威力相当于320亿吨TNT或1.33 × 1020 J的爆炸，相当于2005年世界用电量(5⋅1020 J)。原子弹在广岛爆炸的能量约为≈15 Kt TNT，相当于1克以下物质完全转化为能量:{15 Kt TNT = 63⋅1012 J, E = mc2, m = E / c2 = 63⋅1012 J /(3⋅108 m / s) 2 = 0.7 g.}因此，在智利大地震期间，有1477770克物质转化为能量!计算的数字清楚地表明，在这种能量水平下，陆相岩石的机械强度是不可比较的。因此，问题来了:如果震源不具备达到这种能量水平的物理能力，那么什么是gig地震的震源?我们建议超越弹性反冲理论，想象地震是由地球内部突然出现的力引起的，与弹性力无关。在这种情况下，地震的物理和机制变得容易解释和模拟。本文讨论了一个假设，其中冲击波作为地震的来源，在某些情况下可以产生等离子体和热核反应。举例说明了特大地震、构造群震、火山群震和深源地震发生的物理力学规律。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geophysics eJournal

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