中国专利

任恒鑫,杨振涛,陈晓非,袁士川,郑旭桢,何展翔. 一种震电波场联合提取瑞雷波频散特征的面波勘探方法,发明专利,专利号:ZL202010142633.1,授权日:2020年12月15日。

何展翔,陈晓非,任恒鑫,韩鹏. 数据校正方法、装置、终端设备及存储介质,发明专利,专利号:ZL202010975258.9,授权日:2022年10月11日。

美国专利

Ren Hengxin, Yang Zhentao, Chen Xiaofei, Yuan Shichuan, Zheng Xuzhen, He Zhanxiang, Surface wave prospecting method for jointly extracting Rayleigh wave frequency dispersion characteristics by seismoelectric field,Appl. No.: 17/420,928,Patent No.: US 11,754,744 B2,Filing Date: Jul. 6, 2021,Date of Patent: Sep. 12, 2023


Publications (with the asterisk * indicating the corresponding author)

34. Ni Zhe, Chen Hongyan*, Wang Rui, Miao Miao, Ren Hengxin, Yuan Jiehao, Wang Zhendong, Zhao Yufei, Zhou Siyuan, 2023. Assessing earthquake forecasting performance based on annual mobile geomagnetic observations in Southwest China, Atmosphere, 14(12), 1750, doi:10.3390/atmos14121750

33. Zheng Xu-Zhen, Shi Caiwang, Ren Hengxin*, He Zhanxiang, Huang Qinghua, Chen Xiaofei, 2023 (Early View). Electroseismic Scholte-wave analysis: A potential method for estimating shear-wave velocity structure of shallow-water seabed sediments, Geophysical Prospecting, doi:10.1111/1365-2478.13468

32. Shi Caiwang, Ren Hengxin, Chen Xiaofei*, 2023. Dispersion inversion for P- and S-wave velocities based on guided P and Scholte waves, Geophysics, 88(6), R721-R736, doi:10.1190/GEO2022-0783.1

31. Zheng Xu-Zhen, Ren Hengxin*, Huang Qinghua, Chen Xiaofei, 2023. Numerical Analysis of seismoelectric conversion in stratified low-permeability porous rocks, Pure and Applied Geophysics, 180(11), 3855-3882, doi:10.1007/s00024-023-03349-0

30. Hu Kaiyan, Ren Hengxin*, Huang Qinghua*, Zeng Ling, Butler Karl E., Jougnot Damien, Linde Niklas & Holliger Klaus, 2023. Water table and permeability estimation from multi-channel seismoelectric spectral ratios, Journal of Geophysical Research: Solid Earth, 128(5), e2022JB025505, doi: 10.1029/2022JB025505

29. 马杰,任恒鑫*,汤井田, 2023. 面向含水层的震电效应数值模拟,地球物理学进展38(2), 846-866, doi:10.6038/pg2023FF0582

Ma Jie, Ren Hengxin*, Tang Jingtian, 2023. Numerical simulation of seismoelectric effect of aquifer, Progress in Geophysics (in Chinese), 38(2), 846-866, doi:10.6038/pg2023FF0582

28. Zhang Heng, Sun Yao-Chong, Ren Hengxin*, Zhang Wei, Huang Qinghua & Chen Xiaofei, 2023. Discontinuous curvilinear collocated-grid combined with non-uniform time step Runge-Kutta scheme for poroelastic finite-difference modeling, Geophysics, 88(1), T1-T12, doi:10.1190/geo2022-0180.1

27. Zhang Heng, Sun Yao-Chong, Ren Hengxin*, Ma Bowen, Zhang Wei, Huang Qinghua & Chen Xiaofei, 2022. 2D electromagnetic simulation for ground penetrating radar with a topographic ground surface by the curvilinear collocated-grid finite-difference method combined with equivalent field method, Journal of Applied Geophysics, 206, 104812, doi:10.1016/j.jappgeo.2022.104812.

26. Shi Caiwang, Ren Hengxin, Li Zhengbo & Chen Xiaofei*, 2022. Calculation of normal and leaky modes for horizontal stratified models based on a semi-analytical spectral element method, Geophysical Journal International, 230(3), 1928-1947, doi:10.1093/gji/ggac163

25. Deng Han, An Chao*, Cai Chen & Ren Hengxin, 2022. Theoretical solution and applications of ocean bottom pressure induced by seismic waves at high frequencies, Geophysical Research Letters, 49(9), e2021GL096952, doi:10.1029/2021GL096952

24. Li Zhengbo*, Shi Caiwang, Ren Hengxin & Chen Xiaofei*, 2022. Multiple leaking mode dispersion observations and applications from ambient noise cross-correlation in Oklahoma, Geophysical Research Letters, 49(1), e2021GL096032, doi:10.1029/2021GL096032

23. Yuan Shichuan, Zhang Zhenguo, Ren Hengxin, Zhang Wei, Song Xianhai & Chen Xiaofei*, 2022. Finite-Difference Modeling and Characteristics Analysis of Love Waves in Anisotropic-Viscoelastic Media, Bulletin of the Seismological Society of America, 112(1), 23-47, doi:10.1785/0120200372

22. Zheng Xu-Zhen, Ren Hengxin*, Butler Karl E., Zhang Haiming, Sun Yao-Chong, Zhang Wei, Huang Qinghua & Chen Xiaofei, 2021. Seismoelectric and electroseismic modelling in stratified porous media with a shallow or ground surface source, Journal of Geophysical Research: Solid Earth, 126(9), e2021JB021950, doi:10.1029/2021JB021950

21. Ren Hengxin*, Zeng Ling, Sun Yao-Chong, Yamazaki Ken'ichi, Huang Qinghua & Chen Xiaofei, 2021. Semi-analytical solutions of seismo-electromagnetic signals arising from the motional induction in 3-D multi-layered media: part II – numerical investigations, Earth Planets and Space, 73, 130, doi:10.1186/s40623-021-01458-5 

20. Li Zhengbo, Zhou Jie, Wu Gaoxiong, Wang Jiannan, Zhang Gongheng, Dong Sheng, Pan Lei, Yang Zhentao, Gao Lina, Ma Qingbo, Ren Hengxin & Chen Xiaofei*, 2021. CC-FJpy: A Python package for extracting overtone surface-wave dispersion from seismic ambient-noise cross correlation, Seismological Research Letters, 92(5), 3179-3186, doi:10.1785/0220210042

19. Sun Yao-Chong, Zhang Wei, Ren Hengxin, Bao Xueyang, Xu Jian-Kuan, Sun Nan, Yang Zhentao & Chen Xiaofei*, 2021. 3D seismic-wave modeling with a topographic fluid-solid interface at the sea bottom by the curvilinear grid finite-difference method. Bulletin of the Seismological Society of America, 111(5), 2753-2779, doi:10.1785/0120200363

18. Yuan Shichuan, Ren Hengxin*, Huang Qinghua*, Zheng Xu-Zhen, Yang Zhentao, He Zhanxiang, Zhang Wei & Chen Xiaofei, 2021. Refining higher modes of Rayleigh waves using seismoelectric signals excited by a weight-drop source: study from numerical simulation aspect, Journal of Geophysical Research: Solid Earth, 126(5), e2020JB021336, doi:10.1029/2020JB021336

17. Sun Yao-Chong, Ren Hengxin*, Yamazaki Ken'ichi, Zeng Ling, Huang Qinghua & Chen Xiaofei, 2021. Semi-analytical solutions of seismo-electromagnetic signals arising from the motional induction in 3-D multi-layered media: part I − theoretical formulations, Earth Planets and Space, 73, 20, doi:10.1186/s40623-020-01327-7

16. Huang Qinghua*, Han Peng, Hattori Katsumi & Ren Hengxin, 2020. Electromagnetic signals associated with earthquakes: A review of observations, data processing, and mechanisms in China, in Seismoelectric exploration: Theory, Experiments, and Applications, eds Grobbe N., Revil A., Zhu Z. & Slob E., American Geophysical Union, doi:10.1002/9781119127383.ch26

15. Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2020. Evanescent EM waves generated by seismoelectric conversion at an interface, in Seismoelectric exploration: Theory, Experiments, and Applications, eds Grobbe N., Revil A., Zhu Z. & Slob E., American Geophysical Union, doi:10.1002/9781119127383.ch20

14. Sun Yao-Chong, Uyeshima Makoto, Ren Hengxin*, Huang Qinghua, Aizawa Koki, Tsukamoto Kaori, Kanda Wataru, Seki Kaori, Kishita Takahiro, Ohminato Takao, Watanabe Atsushi, Ran Jiangjun & Chen Xiaofei, 2019. Numerical simulations to explain the coseismic electromagnetic signals: a case study for a M5.4 aftershock of the 2016 Kumamoto earthquake, Earth Planets and Space71, 143, doi:10.1186/s40623-019-1122-7

13. Sun Yao-Chong, Ren Hengxin*, Zheng Xu-Zhen, Li Na, Zhang Wei, Huang Qinghua & Chen Xiaofei, 2019. 2-D poroelastic wave modelling with a topographic free surface by the curvilinear grid finite-difference method, Geophysical Journal International, 218(3), 1961-1982, doi:10.1093/gji/ggz263

12. Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2018. Quantitative understanding on the amplitude decay characteristic of the evanescent electromagnetic waves generated by seismoelectric conversion, Pure and Applied Geophysics, 175(8), 2853-2879, doi:10.1007/s00024-018-1823-z

11. Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2016. Numerical simulation of seismo-electromagnetic fields associated with a fault in a porous medium, Geophysical Journal International, 206(1), 205-220, doi:10.1093/gji/ggw144

10. Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2016. Existence of evanescent electromagnetic waves resulting from seismoelectric conversion at a solid–porous interface, Geophysical Journal International, 204(1), 147-166, doi:10.1093/gji/ggv400

9. Ren Hengxin, Wen Jian, Huang Qinghua & Chen Xiaofei*, 2015. Electrokinetic effect combined with surface-charge assumption: a possible generation mechanism of coseismic EM signals, Geophysical Journal International, 200(2), 835-848, doi:10.1093/gji/ggu435

8. Huang Qinghua*, Ren Hengxin & Zhang, D., 2015. Medium effect on the characteristics of the coupled seismic and electromagnetic signals, Proceedings of the Japan Academy, Series B, 91(1), 17-24, doi:10.2183/pjab.91.17

7. 李娜,任恒鑫*,黄清华,陈晓非,2014,三维层状孔隙介质中弹性波的一种积分表达式II:正确性检验和数值模拟实验,地球物理学报57(7), 2244-2257

Li Na, Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2014. An integral expression of elastic waves in 3D stratified porous media II: Validation and numerical simulation experiments, Chinese Journal of Geophysics, 57(7), 2244-2257, doi:10.6038/cjg20140719

6. 李娜,任恒鑫*,黄清华,陈晓非,2014,三维层状孔隙介质中弹性波的一种积分表达式I:理论,地球物理学报57(6), 1891-1899

Li Na, Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2014. An integral expression of elastic waves in 3D stratified porous media I: Theory, Chinese Journal of Geophysics, 57(6), 1891-1899, doi:10.6038/cjg20140620

5. Huang Qinghua*, Zhang Dan & Ren Hengxin, 2014. Physics of electromagnetic phenomena associated with the rupture of a finite fault model, IEEE International Symposium on Electromagnetic Compatibility, 140-142.

4. Zhang Dan, Ren Hengxin & Huang Qinghua*, 2013. Numerical simulation study of co-seismic electromagnetic signals in porous media, Chinese Journal of Geophysics, 56(8), 2739-2747, doi:10.6038/cjg20130822

3. Ren Hengxin*, Chen Xiaofei & Huang Qinghua, 2012. Numerical simulation of coseismic electromagnetic fields associated with seismic waves due to finite faulting in porous media, Geophysical Journal International, 188(3), 925-944. doi:10.1111/j.1365-246X.2011.05309.x

2. Ren Hengxin, Huang Qinghua* & Chen Xiaofei, 2010. Analytical regularization of the high-frequency instability problem in numerical simulation of seismoelectric wave-fields in multi-layered porous media, Chinese Journal of Geophysics, 53(3), 506-511, doi:10.3969/j.issn.0001-5733.2010.03.004

1. Ren Hengxin*, Huang Qinghua & Chen Xiaofei, 2010. A new numerical technique for simulating the coupled seismic and electromagnetic waves in layered porous media, Earthquake Science, 23(2), 167-176, doi:10.1007/s11589-009-0071-9


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