自然电磁场甚低频频谱异常与滑坡灾区地震仪数据的比较

IF 0.7 Q4 GEOCHEMISTRY & GEOPHYSICS

Contributions to Geophysics and Geodesy Pub Date : 2024-04-01 DOI:10.31577/congeo.2024.54.1.4

Michal Hoffman, Eduard Koči

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引用次数: 0

摘要

永久监测站采用声卡作为 AD/DA 转换器和磁环天线，用于连续记录甚低频（VLF）范围内的电磁场强度。地震台站全天候运行，位于地面下的一个房间内。在 0.1 Hz 至 10 Hz（有些超过 20 Hz）频谱范围内的地震信号与 VLF 范围内的电磁场异常之间发现了相关性。这些异常可能与滑坡体内部的微裂缝、压电-电磁和三电现象有关，产生相对较弱的甚低频发射和微弱的地震信号。使用了单分量 4.5 Hz 395 欧姆垂直 Racotech RGI-20DX 地震检波器，其电子扩展频率较低（< 1 Hz），采样率为 100 sps（每秒采样）。甚低频发射几乎覆盖了 6 千赫的整个频谱，峰值在 14 千赫到 18 千赫之间。接收到的频谱分为以下几个部分：甚低频频段为 4 kHz - 6 kHz；6 kHz - 8 kHz；8 kHz - 10 kHz；10 kHz - 12 kHz；12 kHz - 14 kHz；14 kHz - 16 kHz；16 kHz - 18 kHz。同时，对这些部分的变化进行分析，并与同一时间间隔内的地震记录进行比较。

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Comparison of anomalies in the VLF spectrum of the natural electromagnetic field with data from the seismometer in a landslide-affected area

The data from a permanent monitoring station, based on a sound card as an AD/DA converter and a magnetic loop antenna for continuous recording of electromagnetic field intensities in the Very Low Frequency (VLF) range, were recorded and compared with data from a seismic station based on Raspberry Pi located in a landslide-affected area. The stations operated 24/7 and were placed in a room below ground level. Correlations were observed between seismic signals in the frequency spectrum from 0.1 Hz to 10 Hz (some extending beyond 20 Hz) and anomalies in the electromagnetic field in the VLF range. These anomalies are likely associated with micro-fracturing, piezo-electromagnetic, and triboelectric phenomena within the landslide body, producing relatively weak VLF emissions and a faint seismic signal. A single-component 4.5 Hz 395 Ohm vertical Racotech RGI-20DX geophone with electronic extension to lower frequencies (< 1 Hz) was used with a sampling rate of 100 sps (samples per second). VLF emissions cover almost the entire spectrum from 6 kHz with a peak at 14 kHz to 18 kHz. The received spectrum was divided into following sections: VLF band 4 kHz – 6 kHz; 6 kHz – 8 kHz; 8 kHz – 10 kHz; 10 kHz – 12 kHz; 12 kHz – 14 kHz; 14 kHz – 16 kHz; 16 kHz – 18 kHz. Simultaneously, there were changes in these sections analysed and compared with the seismic record within the same time interval.

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来源期刊

Contributions to Geophysics and Geodesy GEOCHEMISTRY & GEOPHYSICS-

CiteScore

1.20

自引率

14.30%

发文量

审稿时长

20 weeks

期刊介绍： CGG publishes original research papers, short and rapid communications and review articles covering a wide spectrum of earth science disciplines including deep structural geophysics, geodynamics, tectonics, near surface geophysics, applied and environmental geophysics, geomagnetism, seismology, paleomagnetism, space weather, geodesy and geomatics, surveying engineering, hydrology, hydro-geology, atmospheric science, climatology.