On the Magnetic Effects due to the Earthquake of March 16, 2022 in Japan

N. S. Nosikova; Носикова Н. С.; V. A. Pilipenko; Пилипенко В. А.; S. L. Shalimov; Шалимов С. Л.

doi:10.31857/S0002333723050071

On the Magnetic Effects due to the Earthquake of March 16, 2022 in Japan

作者: Nosikova N.S.¹, Pilipenko V.A.¹, Shalimov S.L.¹
隶属关系:
1. Schmidt Joint Institute of Physics of the Earth, Russian Academy of Sciences
期: 编号 5 (2023)
页面: 169-174
栏目: ДИСКУССИИ
URL: https://journals.rcsi.science/0002-3337/article/view/139049
DOI: https://doi.org/10.31857/S0002333723050071
EDN: https://elibrary.ru/VZPTZG
ID: 139049

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Abstract

—The magnetic effects of two similar underwater earthquakes with magnitudes of 6.0 and 7.3, which occurred on March 16, 2022, were considered in [Adushkin et al., 2023]. According to the data of INTERMAGNET magnetic observatories, these earthquakes were found to be accompanied (with a delay of ~55 min) by variations in the Earth’s magnetic field in the form of a train of quasi-periodic oscillations with an amplitude of ~2–8 nT and a period of ~30 min at distances of ~210 to ~3000 km from the epicenter. It was suggested in the aforementioned study that this magnetic effect is caused by a perturbation of the geodynamo as a result of the impact of seismic waves propagating deep into Earth. This interesting hypothesis requires a detailed discussion from different points of view. A more detailed analysis of the pattern of geomagnetic field perturbation at all latitudes, performed by us, leads to a conclusion that the found quasi-periodic perturbation is a mid-latitude response to auroral electrojet variations and is not related to the earthquake. According to our estimates, variations with a source at the core–mantle interface on a time scale less than 1 year cannot manifest themselves on the Earth’s surface at all.

关键词

earthquake, ionosphere, magnetic field, geodynamo

参考

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