The reason for synchronous disturbances in the atmospheric electric field and high-frequency geoacoustic emission during the seismotectonic process

Abstract: The boundary between the lithosphere and the atmosphere is characterized by specific effects related to the interaction and transformation of various geo physical fields. The persistent various scale variations of these fields reflect the complex relations between their sources and also the properties of solid and gas eous media [1]. These effects are most intensely man ifested in seismically active regions, where permanent seismotectonic process is accompanied by stronger deformation of the rocks.The atmosphe… Show more

“…• E) of the Institute of Cosmophysical Research and Radio Wave Propagation FEB RAS [6]. Stored energy of earthquakes occurred at the distance of R ≤ 250 km from this site was considered to be the characteristic of the local seismic activity.…”

Joint perturbation of geoacoustic, emanation, and atmospheric electric fields at the boundary of the earth’s crust and the atmosphere before an earthquake

“…• E) of the Institute of Cosmophysical Research and Radio Wave Propagation FEB RAS [6]. Stored energy of earthquakes occurred at the distance of R ≤ 250 km from this site was considered to be the characteristic of the local seismic activity.…”

Joint perturbation of geoacoustic, emanation, and atmospheric electric fields at the boundary of the earth’s crust and the atmosphere before an earthquake

“…Taking this into consideration, measurements of geoacoustic emission, atmospheric electric field, air pressure, wind velocity and rain intensity were accompanied by the measurements of radon and thoron volumetric activity from 27 August to 17 October 2012 (experiment 2012) [28]. Acoustic pressure P s was recorded in the frequency range of 0.…”

Joint Anomalies of High-Frequency Geoacoustic Emission and Atmospheric Electric Field by the Ground–Atmosphere Boundary in a Seismically Active Region (Kamchatka)

Joint Perturbation in Geoacoustic Emission, Radon, Thoron, and Atmospheric Electric Field Based on Observations in Kamchatka