哈尔滨工业大学2021年博士研究生导师信息：胡恒山

Papers are divided into following 6 directions:

1. Mechanics and Wave Physics of Rocks;

2. Anisotropy and Acoustic Logging in Anisotropic Formations;

3. Acoustic Logging: Wireline and Logging While Drilling;

4. Distant Reflection Logging;

5. Poromechanics and Acoustic Logging in Porous Formations;

6. Electrokinetic Effects and Seismoelectric Logging;

7. Earthquake Electromagnetic Field.

Some papers may be found in more than one of the above directions.

#FormatImgID_0# 1. Mechanics and Wave Physics of Rocks

• [19]Yin Chenggang, Hu Hengshan,Yu Chunhao, Wang Jun, 2018, Successic measurements of streaming pressure with the same core-holder, J.Appl.Geophys,152:48-55.

• [18]Yongjia Song; Hengshan Hu; John W. Rudnicki，2017，Normal compression wave scattering by a permeable crack in a fluid-saturated poroelastic solid，Acta Mechanica Sinica，33(2):356–367，DOI 10.1007/s10409-016-0633-8.
  

• [17]Feilong Xu and Hengshan Hu，2017, Inversion of the shear velocity of the cement in cased borehole through ultrasonic flexural waves，Geophysics, 82(2): D57-D68, doi: 10.1190/GEO2016-0314.1. http://dx.doi.org/10.1190/geo2016-0314.1

• [16]Yongjia Song, Hengshan Hu, and John W. Rudnicki, 2017, Dynamic stress intensity factor (Mode I) of a permeable penny-shaped crack in a fluid-saturated poroelastic solid, International Journal of Solids and Structures , 2017, 110-111: 127-136. http://dx.doi.org/10.1016/j.ijsolstr.2017.01.034

• [15]Yongjia Song, Hengshan Hu, and John W. Rudnicki, 2016, Deriving Biot-Gassmann relationship by inclusion-based method,GEOPHYSICS, VOL. 81, NO. 6 (NOVEMBER-DECEMBER 2016); P. D657–D667.

• [14]Wang J., Hu H, Guan W. and Yin C.G. 2016. Experimental study on electrokinetic properties of porous rock samples. Chinese J. Geophysics ((in Chinese), 59(9):3514-3523.

• [13]Yongjia Song, Hengshan Hu, John W. Rudnicki, and Yunda Duan,2016,Dynamic transverse shear modulus for a heterogeneous fluid-filled porous solid containing cylindrical inclusions, Geophys. J. Int.(September, 2016) 206 (3): 1677-1694 first published online June 27, 2016 doi:10.1093/gji/ggw245.

• [12]Song Y,Hu H,Rudnicki,2016,Dynamic bulk and shear moduli due to grain-scale local fluid flow in fluid-saturated cracked poroelastic rocks: Theoretical model, Journal of the Mechanics and Physics of Solids, 92(July 2016),28–54. DOI 10.1016/j.jmps.2016.03.019.

• [11]Song Y,Hu H,Rudnicki,2016,Shear properties of heterogeneous fluid-filled porous media with spherical inclusions, International journal of solids and structures,83,154-168.

• [10]Zhi Wang and Hengshan Hu.,2016, Moment tensors of a dislocation in a porous medium，Pure Appl. Geophys., 173 (2016), 2033–2045,DOI 10.1007/s00024-015-1220-9.

• [9]XU Feilong, HU Hengshan, YIN Chenggang, Evaluation of the cement bond quality through ltering the reected ultrasonic waves,CHINESE JOURNAL OF ACOUSTICS,34: 37-48

• [8]Zhi Wang, Hengshan Hu, Yufeng Yang, 2015,Reciprocity relations for the elastodynamic fields generated by multipole sources in a fluid-solid configuration, Geophysical Journal International ,2015 203 (2): 883-892,

• [7]Jun Wang, Hengshan Hu, Wei Guan, Hui Li, 2015, Electrokinetic experimental study on saturated rock samples: zeta potential and surface conductance, Geophys. J. Int., 201(2), 869–877, DOI:10.1093/gji/ggv013.

• [6]Yi-de Zhang, Hengshan Hu, 2014, A technique to eliminate the azimuth ambiguity in single-well imaging, Geophysics, 79(6) , P. D409–D416, DOI:10.1190/GEO2013-0310.1

• [5]Song Y J, Hu H S, 2014,High-frequency bulk moduli of fluid-saturated cracked porous rocks (in Chinese). Sci Sin-Phys Mech Astron, 44: 610–620, doi:10.1360/SSPMA2013--00092.

• [4] Yong-Jia Song, Heng-Shan Hu, 2014, Variation of effective elastic moduli of a solid with transverse isotropy due to aligned inhomogeneities, Acta Phys. Sin. Vol. 63, No. 1 (2014) 016202, DOI: 10.7498/aps.63.016202.

• [3] Yongjia Song, Hengshan Hu,2013, Effects of squirt-flow in cracks on drained bulk mudulus of porous media, Chinese Journal of Theoretical and Applied Mechanics, 45(3): 395-405.

• [2] Hengshan Hu, Jiaqi Liu, Kexie Wang.2002. Attenuation and seismoelectric characteristics of dynamically compatible porous media.SEG Technical Program Expanded Abstracts,2002. pp. 1817-182

• [1] Hengshan Hu,Kexie Wang,Jiaqi Liu,2002,Attenuation and dynamic compatibility of the fast compressional wave in a porous medium. Chinese J. Computational Physics, 2002,19(3), 203-207

#FormatImgID_1# 2. Anisotropy and Acoustic Logging in Anisotropic Formations

• [7]Xiao He; Hengshan Hu; Xiuming Wang,2013, Finite difference modelling of dipole acoustic logs in a poroelastic formation with anisotropic permeability,Geophysical Journal International,192(1), 359–374. doi: 10.1093/gji/ggs024

• [6]Xiao He, Hengshan Hu, Wei Guan,2010, Fast and slow flexural waves in a deviated borehole in a homogeneous or layered anisotropic formation, Geophys. J. Int , 181, 417–426.

• [5] Xiao He, Hengshan Hu ,2010, Single-valued definition of the multivalued function for borehole acoustic waves in transversely isotropic formations，SCIENCE CHINA Physics, Mechanics & Astronomy，53 (8): 1419–1426.

• [4] Xiao He，Hengshan Hu, 2009,Borehole Flexural Modes in Anisotropic Formations: The Low-Frequency Asymptotic Velocity, Geophysics. 74(4); E149–E158.

• [3] Hu, H. and He, X., 2009,The low-frequency asymptotic velocity of pseudo-Rayleigh, flexural, and screw modes in anisotropic formations, 79th SEG meeting, Houston, USA. SEG Technical Program Expanded Abstracts, 2009,216-220

• [2] Hu H S (Hengshan Hu), He X.(Xiao He), 2009, The low-frequency asymptotic velocity of pseudo-Rayleigh,flexuaral, and screw waves in a transversely isotropic formation, Chinse J.Geophys.(in Chinses), 2009,52(7):1983-1880,DOI:10.3969/j.issn.0001-5733.2009.07.022.

• [1]Xiao He, and Hengshan Hu, 2008,Wave components of acoustic logs in transversely isotropic porous formations, Chinese Journal of Theoretical and Applied Mechanics (in Chinses),2009, 40(5): 663-671.

#FormatImgID_2# 3. Acoustic Logging: Wireline and Logging While Drilling; Distant Reflection Logging

• [12]Jiaqi Xu, Hengshan Hu, and Zhi Wang, 2019, Asymptotic solution to 3D dipole single-well imaging system with combined monopole and dipole receivers with an application in elimination of azimuth ambiguity: Geophysics, https://library.seg.org/doi/abs/10.1190/geo2018-0658.1. DOI: 10.1190/geo2018-0658

• [11]许家旗, 胡恒山, 2019, 基于鞍点法与互易性的远探测波场模拟, 应用声学，2019 年5 月, 38(3):293-300, DOI: 10.11684/j.issn.1000-310X.2019.03.002,

• [10]Xu F, Hu H(胡恒山), 2019, A semi-analytical approach to calculate the reflected wave of an eccentric source in a borehole, Geophysics, 84(1): D1-D9.

• [9]张超，胡恒山，郑晓波，2019，软地层横波速度的偶极随钻测井反演，地球物理学报，62(6):2286-2293,doi:10.6038/cjg2019M0288.

• [8]Xu F, Hu H(胡恒山), 2019, A semi-analytical approach to calculate the reflected wave of an eccentric source in a borehole, Geophysics, 84(1): D1-D9.
  

• [7]Hu Hengshan, Zhao Chao, Zheng Xiaobo, Inversion of Formation Shear Speed from Dipole Scholte Wave during Logging While Drilling in Slow Formations, Proceedings of the International Congress on Ultrasonics, Honolulu, 2017. Paper No. POMA-D-18-00014.

• [6]Yufeng Yang ,Wei Guan ,Hengshan Hu ,Minqiang Xu,2017,Numerical study of the collar wave characteristics and the effects of grooves in acoustic logging while drilling, Geophys. J. Int., https://doi.org/10.1093/gji/ggx044.

• [5]Xiaobo Zheng，Hengshan Hu, 2017, A theoretical investigation of acoustic monopole LWD individual waves with emphasis on collar wave and its dependence on formation, Geophysics, 2017,82（1）：D1-D11. DOI 10.1190/GEO2016-0266.1

• [4]Yang YF, Guan W, Cui NG, Hu HS, Zheng XB 2016,Simulation and analysis of the collar wave propagation in acoustic logging while drilling. Chinese J. Geophysics((in Chinese), 59(1):368-380. DOI: 10.6038/cjg20160131.杨玉峰，关威，崔乃刚,胡恒山，郑晓波等．2016．随钻声波测井FDTD 模拟及钻铤波传播特性研究．地球物理学报，59(1):368-380.

• [3]Xiaobo Zheng, Hengshan Hu, Wei Guan, and Jun Wang, 2015,Simulation of the borehole quasistatic electric field excited by the acoustic wave during logging while drilling due to electrokinetic effect, Geophysics, 80(5): P. D417–D427.

• [2]Xiaobo Zheng, Hengshan Hu, Wei Guan and Jun Wang,2014,Theoretical simulation of the electric field induced by acoustic waves during the seismoelectric logging while drilling, Chinse J.Geophys.(in Chinses), 57(1):320-330.郑晓波, 胡恒山, 关威, 王军, 2014，随钻动电测井中声诱导电场的理论模拟,地球物理学报．地球物理学报，57（1）：320-330.

• [1]Wei Guan, Hengshan Hu and Xiaobo Zheng,2013,Theoretical simulation of the multipole seismoelectric logging while drilling, Geophys. J. Int., (2013) 195, 1239–1250.

  
  

#FormatImgID_3# 4. Distant Reflection Logging(井下声波远探测);

• [7] Xu, Jiaqi（许家旗）, Hengshan Hu, and Qing Huo Liu,2020,.Combination of FDTD With Analytical Methods for Simulating Elastic Scattering of 3-D Objects Outside a Fluid-Filled Borehole. IEEE Transactions on Geoscience and Remote Sensing (2020), DOI: 10.1109/TGRS.2020.3011124，下载网址: https://ieeexplore.ieee.org/document/9165154

• [6] 许家旗, 胡恒山，2020，声波远探测中偏心声源的辐射以及接收波场研究，地球物理学报，Vol. 63 (9): 3545-3561，DOI:10.6038/cjg2020N0015。

• 5] Jiaqi Xu（许家旗）, Hengshan Hu,2020, Solutions of P-SV and SV-P waves in single-well imaging through reciprocity relations." Geophysics (2020). DOI: 10.1190/geo2019-0551.,下载网址：https://doi.org/10.1190/geo2019-0551.1

• [4] Jiaqi Xu（许家旗）, Hengshan Hu, and Zhi Wang, 2019, Asymptotic solution to 3D dipole single- well imaging system with combined monopole and dipole receivers with an application in elimination of azimuth ambiguity: Geophysics, 84(5): D191-D207. https://library.seg.org/doi/abs/10.1190/geo2018-0658.1. DOI: 10.1190/geo2018-0658.1

• [3] 许家旗, 胡恒山, 2019, 基于鞍点法与互易性的远探测波场模拟, 应用声学，2019 年5 月, 38(3):293-300.

• [2] Zhi Wang（王治）, Hengshan Hu, Yufeng Yang, 2015 ,Reciprocity relations for the elastodynamic fields generated by multipole sources in a fluid-solid configuration, Geophysical Journal International, 203, 883–892.

• [1] Yi-de Zhang(张义德), Hengshan Hu, 2014 , A technique to eliminate the azimuth ambiguity in single-well imaging, Geophysics,79( 6); P. D409–D416, DOI:10.1190/GEO2013-0310.1

#FormatImgID_4# 5. Poromechanics and Acoustic Logging in Porous Formations

• [20]Song Y,Hu H,Rudnicki,2016,Dynamic bulk and shear moduli due to grain-scale local fluid flow in fluid-saturated cracked poroelastic rocks: Theoretical model, Journal of the Mechanics and Physics of Solids, 92(July 2016),28–54. DOI 10.1016/j.jmps.2016.03.019.

• [19]Yongjia Song, Hengshan Hu, and John W. Rudnicki, 2017, Dynamic stress intensity factor (Mode I) of a permeable penny-shaped crack in a fluid-saturated poroelastic solid, International Journal of Solids and Structures , http://dx.doi.org/10.1016/j.ijsolstr.2017.01.034

  [18]Yongjia Song, Hengshan Hu, and John W. Rudnicki, 2016, Deriving Biot-Gassmann relationship by inclusion-based method,GEOPHYSICS, VOL. 81, NO. 6 (NOVEMBER-DECEMBER 2016); P. D657–D667.

• [17]Zhi Wang and Hengshan Hu.,2016, Moment tensors of a dislocation in a porous medium，Pure Appl. Geophys., 173 (2016), 2033–2045.

• [16]Yang YF, Guan W, Cui NG, Hu HS, Zheng XB 2016,Simulation and analysis of the collar wave propagation in acosutic logging while drilling. Chinese J. Geophysics((in Chinese), 59(1):368-380.

• [15]Xiaobo Zheng, Hengshan Hu, Wei Guan, and Jun Wang, 2015,Simulation of the borehole quasistatic electric field excited by the acoustic wave during logging while drilling due to electrokinetic effect, Geophysics, 80(5): P. D417–D427.

• [14]Yongjia Song, Hengshan Hu,2013, Effects of squirt-flow in cracks on drained bulk mudulus of porous media, Chinese Journal of Theoretical and Applied Mechanics, 45(3): 395-405.

• [13]Xiao He; Hengshan Hu; Xiuming Wang,2013, Finite difference modelling of dipole acoustic logs in a poroelastic formation with anisotropic permeability,Geophysical Journal International,192(1), 359–374. doi: 10.1093/gji/ggs024

• [12]Wei Guan, Hengshan Hu, 2011，The parameter averaging technique in finite-difference modeling of elastic waves in combined structures with solid, fluid and porous subregions，Communications in Computataional Physics, 10(3),695-715

• [11] Li W.,Hu.H.,Zhang B.,Gang T.,2010, Simulation of acoustic well-logging wave field in a radially multilayered fluid-saturated porous formation,Acta Acoustica (in Chinese), 35(4),455-464.

• [10] Wang J, Hu H. S., Cheng X, 2009,The Transient response of a cylindrical piezoelectric transducer and the excited wavefield in a borehole. Chinese Journal of Geophysics, 2009, 52(5): 1333-1340.DOI:10.3969/j.issn.0001-5733.2009.05.023.

• [9]Wei Guan, Hengshan Hu, Xiao He，2009,Finite-difference modeling of the monopole acoustic logs in a horizontally stratified porous formation, Journal of the Acoustic Society of America, 125(4), 1942-1950

• [8]Xiao He, and Hengshan Hu, 2008,Wave components of acoustic logs in transversely isotropic porous formations, Chinese Journal of Theoretical and Applied Mechanics (in Chinses),2008, 40(5): 663-671.

• [7] Zhi-Wen Chui, Kexie Wang, Heng-Shan Hu,2004, Energy characteristics of inhomogeneous waves in fluid-saturated porous mediua, Journal of Jilin University (Earth Science Edition),2004,34 (Sup), 76-80.

• [6] Zhi-Wen Cui, Kexie Wang, Zheng-Liang Cao and Heng-Shan Hu, 2004,Slow wave propagation in BISQ poroelastic model, Acta Physica Sinica,2004,53(9),3083-3089.

• [5] Hengshan Hu, 2003,Acoustic head wave on the borehole wall in a porous formation and the causes for its accompanying electromagnetic field, Acta Physica Sinica,2003,52,1954-1959.

• [4] Hengshan Hu, Jiaqi Liu, Kexie Wang.2002. Attenuation and seismoelectric characteristics of dynamically compatible porous media.SEG Technical Program Expanded Abstracts,2002. pp. 1817-182

• [3] Hengshan Hu,Kexie Wang,Jiaqi Liu,2002,Attenuation and dynamic compatibility of the fast compressional wave in a porous medium. Chinese J. Computational Physics, 2002,19(3), 203-207

• [2] Hengshan Hu and Kexie Wang, Dynamic permeability and related concepts in Biot theory, and their application in modeling acoustic logs. Chinese Journal of Geophysics, 2001,44(1),135-141. ( Chinese Ed.,pp134-141)

• [1] Hengshan Hu, Jun Ma and Kexie Wang, The choice of Riemann sheets in the calculation of the borehole acoustic waves, Acta Scientiarum Naturalium Universitatis Jilinensis (Journal of Jilin University),1999, issue 4, 66-70.

#FormatImgID_5# 6. Electrokinetic effects and Seismoelectric Logging

• [40]Yin Chenggang, Hu Hengshan,Yu Chunhao, Wang Jun, 2018, Successic measurements of streaming pressure with the same core-holder, J.Appl.Geophys,152:48-55.

• [39] Wei Guan, Peng Shi and Hengshan Hu, 2018, Contributions of poroelastic-wave potentials to seismoelectromagnetic wavefields and validity of the quasi-static calculation: a view from a borehole model. Geophys. J. Int. (2018) 212, 458–475. Advance Access publication 2017 October 9.

• [38]Wang J., Hu H, Guan W. and Yin C.G. 2016. Experimental study on electrokinetic properties of porous rock samples. Chinese J. Geophysics ((in Chinese), 59(9):3514-3523.

• [37]Jun Wang, Hengshan Hu, and Wei Guan,2016, The evaluation of rock permeability with streaming current measurements ,Geophys. J. Int. (September, 2016) 206 (3): 1563-1573 first published online June 19, 2016 doi:10.1093/gji/ggw231

• [36]Wang J. Guan W.,Hu HS, Zhu Z. 2016 Electrokinetic experimental studies in borehole model II: localized and radiated seismoelectric field. Chinese J. Geophysics((in Chinese), 59(1):381-390. DOI: 10.6038/cjg20160132.

• [35]Yang YF, Guan W, Cui NG, Hu HS, Zheng XB 2016,Simulation and analysis of the collar wave propagation in acosutic logging while drilling. Chinese J. Geophysics((in Chinese), 59(1):368-380. DOI: 10.6038/cjg20160131.

• [34]Wei Guan, Chenggang Yin, Jun Wang, Naigang Cui, Hengshan Hu and Zhi Wang,2015,Theoretical study on the amplitude ratio of the seismoelectric field to the Stoneley wave and the formation tortuosity estimation from seismoelectric logs, Geophys. J. Int. (2015) 203, 2277–2286.

• [33]Jun Wang; Hengshan Hu; Wei Guan, 2015,Experimental measurements of seismoelectric signals in borehole models, Geophysical Journal International,203 (3): 1937-1945,

• [32]Xiaobo Zheng, Hengshan Hu, Wei Guan, and Jun Wang, 2015,Simulation of the borehole quasistatic electric field excited by the acoustic wave during logging while drilling due to electrokinetic effect, Geophysics, 80(5): P. D417–D427.

• [31]Jun Wang, Hengshan Hu, Wei Guan, Hui Li, 2015, Electrokinetic experimental study on saturated rock samples: zeta potential and surface conductance, Geophys. J. Int., 201(2), 869–877.

• [30]Xiaobo Zheng, Hengshan Hu, Wei Guan and Jun Wang,2014,Theoretical simulation of the electric field induced by acoustic waves during the seismoelectric logging while drilling, Chinse J.Geophys.(in Chinses), 57(1):320-330.

• [29]Wei Guan, Hengshan Hu and Xiaobo Zheng,2013,Theoretical simulation of the multipole seismoelectric logging while drilling, Geophys. J. Int., (2013) 195, 1239–1250.

• [28]Guan W., Wang Z., Hu H , 2013, Permeability inversion from the low-frequency seismoelectric logs in fluid-saturated porous formations, Geophysical Prospecting, 61:120-133.

• [27]Wang Zhi, Hu Heng-shan, Guan Wei, and He Xiao, 2012, Component wave analysis of borehole seismoelectric wavefields in a porous formation, Acta Phys.Sin., 61(5),054302.

• [26]Zhiwen Cui, Jinxia Liu, Yujun Zhang, KexieWang, Hengshan Hu, 2011, Simulation of Monopole and Multipole Seismoelectric Logging, Advances in Acoustics and Vibration, Article ID 107827, 10 pages, doi:10.1155/2011/107827

• [25]Guan W., Wang Z., Hu H.,2011,Component wave analysis of borehole seismoelectric wavefields and permeability inversion from seismoelectric logs , 73rd EAGE Conference, 23-26 May 2011, Vienna, Austria

• [24]Guan W,Hu HS,Tang TZ et al, 2011,The ratio of the acoustoelectric field to the acoustic pressure in a borehole and its dependence on permeability. Chinse J.Geophys.(in Chinses), 2011,54(6):1660-1671,DOI:10.3969/j.issn.0001-5733.2011.06.026.

• [23]Hu Hengshan,Guan Wei, 2011, Simulation of the SH wave excited by a horiztonal current loop centered in aborehole surrouded by a porous formation, J. of Natural Science of Heilongjiang Unviserity, 28(3),285-290.

• [22]Wang J.,Hu H.,Yang G. et al, 2011,Experimental measurements on streaming current and zeta-potential of core samples under the excitation of low-frequency sinusoidal pressure, Chinse J.Geophys.(in Chinses), 2011,54(8):2169-2176,DOI:10.3969/j.issn.0001-5733.2011.08.025.

• [21] Jin D., Sun B.,Hu H.,Guan W., 2010,Electrokinetic logging:state of the art and future challengs, Well Logging Technology,34(4),309-313.

• [20] Wang J.,Hu HS.,Xu XR.,et al,2010,Experimental measurement study on rock permeability based on the elctrokinetic effect. Chinese J.Geophys.(in Chinses),2010,53(8):1953-1960, DOI:10.3969/j.issn.0001-5733.2010.08.021.

• [19] Guan Wei, Hengshan Hu,2009, 2D seismoelectric log simulation using a finite-difference method, 79th SEG meeting, Houston, USA. SEG Technical Program Expanded Abstracts, 2009,2567-2571.

• [18] Wei Guan, Hengshan Hu, 2008,Finite-Difference modeling of the electroseismic logging in a fluid-saturated porous formation, Journal of Computation Physics, 227(11),5633-5648.

• [17] Cui Zhi-Wen, Wang Ke-Xie, Hu Heng-Shan and Sun Jian-Guo, 2007,Acousto-electric well logging by an eccentric source and extraction of shear wave, Chinese Physics,16(3):746-752.

• [16] CUI Zhi-Wen, WANG Ke-Xie, SUN Jian-Guo, ZHU Zheng-Ya, YAO Gui-Jin and HU Heng-Shan, 2007, Numerical Simulation of Shear-Horizontal-Wave-Induced Electromagnetic Field in Borehole Surrounded by Porous Formation, Chinese Phys. Lett. 24 3454-3457

• [15] Wei Guan and Hengshan Hu, 2007,Finite-difference modeling of electroacoustic logging response in a fluid-saturated porous formation，SEG Technical Program Expanded Abstracts, 2007, pp.511-515

• [14] Hengshan Hu, Wei Guan, Jerry Harris,2007, Theoretical simulation of electroacoustic borehole logging in a fluid-saturated porous formation, Journal of the Acoustic Society of America, 122(1),135-145.

• [13] W.Guan, H.Hu, Z.Chu, Formulation of the acoustically-induced electromagnetic field in a porous formation in terms of Hertz vectors and simulation of the borehole electromagnetic field excited by an acoustic multipole source, Acta Physica Sinica,2006,55(1): 267-274

• [12]Hengshan Hu, Wei Guan, Kexie Wang, 2005,The electromagnetic field accompanying the acoustic head wave and the radiating electromagnetic wave during acousto-electromagnetic well logging, Proceedings of the third Biot conference on Poromechanics, Oklahoma, USA, pp593-599

• [11] Hengshan Hu, Jiaqi Liu, Simulation of well logs of the acoustically-induced electromagnetic field in a porous formation, Acta Mechanica Sinica,2004,36(4),407-413

• [10] Hengshan Hu, Acoustic head wave on the borehole wall in a porous formation and the causes for its accompanying electromagnetic field, Acta Physica Sinica,2003,52,1954-1959

• [9] Hengshan Hu and Jiaqi Liu, A comparison between Potapof@#%s and Pride@#%s equations for seismoelectric waves, Chinese Journal of Geophysics, 2003, v46, 107-112

• [8] Hengshan Hu, Jiaqi Liu and Kexie Wang, Simulation of acousto-electric well logging based on simplified Pride equtaions, Chinese Journal of Geophysics,2003, v46, 259-264

• [7] Hengshan Hu and Jiaqi Liu.2002. Simulation of the converted electric field during acoustoelectric logging. SEG Technical Program Expanded Abstracts,2002, pp. 348-351.

• [6] Hengshan Hu, Jiaqi Liu, Kexie Wang.2002. Attenuation and seismoelectric characteristics of dynamically compatible porous media.SEG Technical Program Expanded Abstracts,2002. pp. 1817-182

• [5] Hengshan Hu and Kexie Wang, Numerical simulation and analysis of acousto -electric well logging, Proceedings of the 5th SEGJ International Symposium， Tokyo, Japan, Jan.24-26,2001. pp325-330.

• [4] Hengshan Hu, Changwen Li, Kexie Wang and Zhengya Zhu,2001, Experimental study on coupled acoustic and electromagnetic waves in model wells. Well Logging Technology, 2001,25(2), 89-95.

• [3] Hengshan Hu., Kexie Wang, and Jingnong Wang, 2000, Simulation of acoustically induced electromagnetic field in a borehole embedded in a porous formation, Borehole Acoustics Annual Report, Earth Resources Laboratory, Massachusetts Institute of Technology.Paper No.13.

• [2] Hengshan Hu and Kexie Wang, 2000,Coupled acoustic and electromagnetic waves around a borehole embedded in a porous formation, part 2: simulation of acoustoelectric well logging. Well Logging Technology, 2000,24(1),3-11.

• [1] Hengshan Hu and Kexie Wang, Coupled acoustic and electromagnetic waves around a borehole embedded in a porous formation, part 1: Theory. Well Logging Technology, 1999, 23(6), 427-432.

#FormatImgID_6# 7. Earthquake Electromagnetic Field

• [14] Yongxin Gao, Dongdong Wang, Jian Wen, Hengshan Hu, Xiaofei Chen, Cheng Yao, Electromagnetic responses to an earthquake source due to the motional induction effect in a 2_D layered model, Geophys. J. Int.: 2019 ,219,563–593.

• [13]Yongxin Gao, Dongdong Wang, Cheng Yao, Wei Guan, Hengshan Hu, Jian Wen, Wei Zhang, Ping Tong and Qingjie Yang Simulation of seismoelectric waves using finite-difference frequency-domain method: 2-D SHTE mode, Geophys. J. Int.: 2019 ,216 ,414–438

• [12]Gao, Y., M. Wang, H. Hu, and X. Chen (2017), Seismoelectric responses to an explosive source in a fluid above a fluid-saturated porousmedium, J. Geophys. Res. Solid Earth, 122, 7190–7218, doi:10.1002/2016JB013703

• [11]Gao, Y., F. Huang, and H. Hu (2017), Comparison of full and quasi-static seismoelectric analytically based modeling, J. Geophys. Res. Solid Earth, 122, doi:10.1002/2017JB014251.

• [10]Zhi Wang and Hengshan Hu.,2016, Moment tensors of a dislocation in a porous medium，Pure Appl. Geophys., 173 (2016), 2033–2045,DOI 10.1007/s00024-015-1220-9. published on line(2015)

• [9]Yongxin Gao, Jerry M. Harris, Jian Wen, Yihe Huang, Cedric Twardzik, Xiaofei Chen, and Hengshan Hu, 2016, Modeling of the coseismic electromagnetic fields observed during the 2004 Mw 6.0 Parkfield earthquake,Geophys. Res. Lett,43 ,620–627

• [8]Gao, Y., X. Chen, H. Hu, J. Wen, J. Tang, and G. Fang (2014), Induced electromagnetic field by seismic waves in Earth’s magnetic field, J. Geophys. Res. Solid Earth, 119, 5651–5685,doi:10.1002/2014JB010962.

• [7]Yongxin Gao, Xiaofei Chen, Hengshan Hu,Jie Zhang,2013, Early electromagnetic waves from earthquake rupturing: II. validation and numerical experiments, Geophys.J.Int. 192, 1308–1323. doi: 10.1093/gji/ggs097

• [6]Yongxin Gao, Xiaofei Chen, Hengshan Hu,Jie Zhang,2013, Early electromagnetic waves from earthquake rupturing: I. theoretical formulations,Geophysical Journal International, 192, 1288-1307. doi: 10.1093/gji/ggs096

• [5]Hengshan Hu, Yongxin Gao, 2011, Electromagnetic Field Generated by a Finite Fault due to Electrokinetic Effect, Journal of Geophysical Research-Solid Earth. 116, B08302, doi: 10.1029/2010JB007958.

• [4]Yongxin Gao, Hengshan Hu, 2010, Seismoelectromagnetic waves radiated by a double couple source in a saturated porous medium， Geophys. J. Int., 181, 873–896. (Because of this paper, Gao won Geophysical Journal Interntaional Student Author Award for the year 2010 )

• [3]Hengshan Hu and Yongxin Gao, 2009,The electric field induced by the fast P-wave and its nonexistence in a dynamically compatible porous medium, 79th SEG meeting, Houston, USA. SEG Technical Program Expanded Abstracts, 2009,2170-2174

• [2]Yongxin Gao, Hengshan Hu,2009, Numerical simulation and analysis of seismoelectromagnetic wave fields excited by a point source in layered porous media. Chinese Journal of Geophysics, 2009,52(8), 2093- 2104.DOI:10.3969/j.issn.0001-5733.2009.08.018.

• [1] Hengshan Hu, Jiaqi Liu, Kexie Wang.2002. Attenuation and seismoelectric characteristics of dynamically compatible porous media.SEG Technical Program Expanded Abstracts,2002. pp. 1817-182