Physical Effects in the Atmosphere and Geospace Accompanying the Surface Explosion in the City of Beirut on August 4, 2020: Observational Data

IF 0.5 4区 物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS Kinematics and Physics of Celestial Bodies Pub Date : 2021-08-28 DOI:10.3103/S0884591321040036
L. F. Chernogor, K. P. Garmash
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Abstract

On August 4, 2020, a massive explosion rocked the city of Beirut, Lebanon. The explosion yield has been estimated to be equivalent to 1 kt of TNT, and the physical effects of the explosion on the Earth–atmosphere–ionosphere–magnetosphere system have been analyzed in detail. The possible effects of powerful explosions are of considerable interest to geophysicists and radio physicists to analyze. These effects make it possible to reveal the mechanisms for transporting the disturbances in both the vertical and horizontal directions as well as the mechanisms for interaction of the subsystems in the Earth–atmosphere–ionosphere–magnetosphere system. The purpose of the present paper is to describe radio and magnetometer observations of the processes that accompanied the powerful explosion in Beirut on August 4, 2020, in the lower ionosphere and in the geomagnetic field. The observations of the possible response of the near-Earth medium to the explosion have been made with a fluxmeter magnetometer and a radio system for sounding the ionosphere at oblique incidence. The latter system detected an increase of up to 5.3° in the phase of the ionospheric wave and an increase of 3.3% in the signal amplitude caused by an electron density change of approximately 3%. If these increases are due to the explosion, the speed of propagation of the disturbance is estimated to be approximately 3 km/s. The fluxmeter magnetometer has detected changes in the character of variations in the level of the geomagnetic field occurring 5 min and 79 min after the explosion. If these variations were associated with the explosion, the speeds of propagation can be estimated to be tens of km/s and greater as well as 490 m/s. The MHD waves have a greater speed, and the acoustic gravity waves have a smaller speed, respectively.

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2020年8月4日贝鲁特地表爆炸对大气和地球空间的物理影响:观测数据
2020年8月4日,黎巴嫩贝鲁特市发生大规模爆炸。据估计爆炸当量相当于1 kt TNT炸药,并详细分析了爆炸对地球-大气-电离层-磁层系统的物理影响。地球物理学家和无线电物理学家对强力爆炸可能产生的影响进行了分析,这引起了他们极大的兴趣。这些效应使得揭示扰动在垂直和水平方向上的传递机制以及地球-大气-电离层-磁层系统中各子系统的相互作用机制成为可能。本文的目的是描述2020年8月4日贝鲁特强烈爆炸伴随的无线电和磁力计观测过程,在电离层下层和地磁场中。近地介质对爆炸的可能反应已经用一个通量计、磁力计和一个无线电系统进行了观测,该系统用于在倾斜入射下探测电离层。后一种系统检测到电离层波的相位增加了5.3°,信号幅度增加了3.3%,这是由大约3%的电子密度变化引起的。如果这些增加是由于爆炸引起的,则估计扰动的传播速度约为3公里/秒。磁力计磁强计探测到爆炸后5分钟和79分钟地磁场水平变化特征的变化。如果这些变化与爆炸有关,那么传播速度可以估计为每秒几十公里甚至更高,也可以达到每秒490米。MHD波的速度较大,声波重力波的速度较小。
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来源期刊
Kinematics and Physics of Celestial Bodies
Kinematics and Physics of Celestial Bodies ASTRONOMY & ASTROPHYSICS-
CiteScore
0.90
自引率
40.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: Kinematics and Physics of Celestial Bodies is an international peer reviewed journal that publishes original regular and review papers on positional and theoretical astronomy, Earth’s rotation and geodynamics, dynamics and physics of bodies of the Solar System, solar physics, physics of stars and interstellar medium, structure and dynamics of the Galaxy, extragalactic astronomy, atmospheric optics and astronomical climate, instruments and devices, and mathematical processing of astronomical information. The journal welcomes manuscripts from all countries in the English or Russian language.
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