Your search keyword '"Zhenyu Fan"' showing total 4 results

1. Regional characteristics of the lithospheric structure in the southeast of North China revealed by explosion seismology

Author

Zhenyu Fan, Jinren Zhao, Cejun Ma, Mingxin Qu, Xiaoguo Deng, Baofeng Liu, and Yan Hai

Subjects

Blasting seismic detection, Crust-mantle lithospheric structure, Tanlu fault zone, West Shandong uplift, Geodesy, QB275-343, Geophysics. Cosmic physics, QC801-809

Abstract

Based on the blasting seismic detection data obtained in the southeast of North China in recent years, this paper comprehensively analyzes and studies the crust-mantle lithospheric structure and seismological characteristics of different tectonic regions, such as offshore basins, west Shandong uplift, Tanlu fault zone and Jiangsu-Shandong orogenic belt. The low-velocity Pg waves in Dongying depression and Northern Jiangsu basin reveal the unstable basement structure with extremely thick sediments. The travel time of Pg wave is characterized by relatively low propagation velocity and small crustal thickness of offshore continental margin; the first break time and high apparent velocity of Pg wave in west Shandong uplift indicate that the sedimentary basement is relatively thin. The Pm wave shows the characteristic of dominant wave in the first-order velocity discontinuity of the crust-mantle interface, which reflects the high crustal velocity and stable structure in west Shandong uplift. The Pm and Pl wave are obviously complicated, which can reflect the crust-mantle lithospheric structure of the transitional zone between Tanlu fault zone and Jiangsu-Shandong orogenic belt. The small time difference between Pn and PL waves can be regarded as the highly destructive seismological manifestation of Tanlu fault zone on the crust-lithosphere scale. Based on many geophysical phenomena such as electrical structure, density structure and terrestrial heat flow, it is believed that the lithospheric destruction degree of Tanlu fault zone and Jiangsu-Shandong orogenic belt was high during the destruction of the North China Craton.

Published

2021

2. Study on the basement structure in the southeastern North China by blasting seismic

Author

Zhenyu Fan, Jinren Zhao, Suzhen Pan, Cejun Ma, Mingxin Qu, Yan Hai, and Xiaoguo Deng

Subjects

Geodesy, QB275-343, Geophysics. Cosmic physics, QC801-809

Abstract

Since the Mesozoic, southeastern North China Craton has experienced intense crustal thinning and lithosphere destruction. Some of the responses of the deep activity in the upper crust crystalline basement have been retained in a series of tectonic evolution. The study of the upper crust velocity structure, especially the properties of the basement interface, is of great significance for studying the tectonic evolution and seismic hazard in the southeastern part of North China. In this study, we selected Pg waves of the blasting seismic data in the southeastern part of North China in recent years, which reflect the west Shandong uplift, offshore sedimentary basins and the Tanlu Fault zone and the Sulu orogenic transition zone, to study the structural and seismological characteristics of basement in North China Craton. The results of this study showed as follows: First, the obvious lag of Pg wave arrival time in Dongying depression and North Jiangsu basin reveals the thick sedimentary, low velocity and unstable basement structure. Second, the advance Pg wave arrival time with high apparent velocity, which reflects the basement structure of the west Shandong uplift, indicates the thin sediments and the shallow basement. Third, combined with many geophysical phenomena, such as electrical structure, density structure and terrestrial heat flow, we hold that the Tanlu tectonic belt and the Sulu orogenic belt have experienced great lithosphere destruction and there is shallow crust and the thinnest lithosphere in the vicinity of the Tanlu fault zone. Keywords: Blasting seismic detection, Southeastern North China, Crystalline basement, Pg arrival time

Published

2018

3. Application of S-transform threshold filtering in Anhui experiment airgun sounding data de-noising

Author

Chenglong Zheng, Xiaofeng Tian, Zhuoxin Yang, Shuaijun Wang, and Zhenyu Fan

Subjects

Geodesy, QB275-343, Geophysics. Cosmic physics, QC801-809

Abstract

As a relatively new method of processing non-stationary signal with high time-frequency resolution, S transform can be used to analyze the time-frequency characteristics of seismic signals. It has the following characteristics: its time-frequency resolution corresponding to the signal frequency, reversible inverse transform, basic wavelet that does not have to meet the permit conditions. We combined the threshold method, proposed the S-transform threshold filtering on the basis of S transform time-frequency filtering, and processed airgun seismic records from temporary stations in “Yangtze Program” (the Anhui experiment). Compared with the results of the bandpass filtering, the S transform threshold filtering can improve the signal to noise ratio (SNR) of seismic waves and provide effective help for first arrival pickup and accurate travel time. The first arrival wave seismic phase can be traced farther continuously, and the Pm seismic phase in the subsequent zone is also highlighted. Keywords: S transform, Time-frequency filtering, Airgun data, Threshold filtering, De-noising

Published

2018

4. Application of S-transform threshold filtering in Anhui experiment airgun sounding data de-noising

Author

Zhuo-Xin Yang, Shuaijun Wang, Zhenyu Fan, Chenglong Zheng, and Xiaofeng Tian

Subjects

lcsh:QB275-343, 010504 meteorology & atmospheric sciences, Speech recognition, Acoustics, lcsh:Geodesy, lcsh:QC801-809, Phase (waves), 010502 geochemistry & geophysics, 01 natural sciences, Signal, Seismic wave, lcsh:Geophysics. Cosmic physics, Depth sounding, Geophysics, Wavelet, Signal-to-noise ratio, Pickup, Computers in Earth Sciences, S transform, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

As a relatively new method of processing non-stationary signal with high time-frequency resolution, S transform can be used to analyze the time-frequency characteristics of seismic signals. It has the following characteristics: its time-frequency resolution corresponding to the signal frequency, reversible inverse transform, basic wavelet that does not have to meet the permit conditions. We combined the threshold method, proposed the S-transform threshold filtering on the basis of S transform time-frequency filtering, and processed airgun seismic records from temporary stations in “Yangtze Program” (the Anhui experiment). Compared with the results of the bandpass filtering, the S transform threshold filtering can improve the signal to noise ratio (SNR) of seismic waves and provide effective help for first arrival pickup and accurate travel time. The first arrival wave seismic phase can be traced farther continuously, and the Pm seismic phase in the subsequent zone is also highlighted. Keywords: S transform, Time-frequency filtering, Airgun data, Threshold filtering, De-noising

Published

2018