期刊文章(*通讯作者):

[31] Li, S., W. Wang, Y. Su, J. Guo*, and X. Tang, 2023, P- and SV-wave dispersion and attenuation in saturated microcracked porous rock with aligned penny-shaped fractures: Petroleum Science, https://doi.org/10.1016/j.petsci. 2023.08. 029. 

[30] 郭俊鑫, 曹呈浩*, 陈晓非, 廖建平, 2023, 本征各向异性对地震波频散、衰减与频变各向异性的影响: 科学通报, https://doi.org/10.1360/TB-2022-1039.

[29] Liao, J., P. Wen, J. Guo*, L. Zhou, 2023, Seismic dispersion, attenuation, and frequency-dependent anisotropy in a fluid-saturated porous periodically layered medium: Geophysical Journal International, https://doi.org/10.1093/gji/ggad080.

[28] Li, S., W. Wang, Y. Su, and J. Guo*, 2023, Effective elastic properties and shear-wave anisotropy for rocks containing any oriented penny-shaped cracks in transversely isotropic background: Geophysics, https://doi.org/10.1190/geo2022-0388.1.

[27] Guo, J.*, B. Gurevich, and X. Chen, 2022, Dynamic SV-wave signatures of fluid-saturated porous rocks containing intersecting fractures: Journal of Geophysical Research: Solid Earth, 127, e2022JB024745.

[26] Guo, J., and X. Chen*, 2022, Pressure dependence of elastic wave velocities of unconsolidated cemented sands: Geophysics, 87, MR161 - MR175.

[25] Guo, J., L. Zhao, X. Chen*, Z. Yang, H. Li, and C. Liu, 2022, Theoretical modelling of seismic dispersion, attenuation and frequency-dependent anisotropy in a fluid-saturated porous rock with intersecting fractures: Geophysical Journal International, 230, 580 - 606. 
[24] Han, X., H. Zhang, J. Guo*, J. Li, and T. Fang, 2022, Controlling factors on elastic wave velocities of conglomerate – Experimental and theoretical study: Journal of Petroleum Science and Engineering, 209, 109837.

[23] Guo, J., L. Zhao*, Z. Yang, and H. Li, 2021, Analytical model for rock effective elastic properties with aligned elliptical cracks embedded in transversely‐isotropic background: Geophysical Prospecting, 69, 1515 - 1530

[22] Guo, J.*, and B. Gurevich, 2020, Frequency-dependent P-wave anisotropy due to wave-induced fluid flow and elastic scattering in a fluid-saturated porous medium with aligned fractures: Journal of Geophysical Research: Solid Earth, 125, e2020JB020320. 

[21] Guo, J.*, and B. Gurevich, 2020, Effects of coupling between wave‐induced fluid flow and elastic scattering on P‐wave dispersion and attenuation in rocks with aligned fractures: Journal of Geophysical Research:Solid Earth, 125, e2019JB018685.

[20] Guo, J., B. Gurevich, and D. Shuai*, 2020, Frequency-dependent P-wave anisotropy due to scattering in rocks with aligned fractures: Geophysics, 85, MR97-MR105.  

[19]  Fu, B., L.-Y. Fu, J. Guo*, R. J. Galvin, B. Gurevich, 2020, Semi-analytical solution to the problem of frequency dependent anisotropy of porous media with an aligned set of slit cracks: International Journal of Engineering Science, 147,103209.(固体力学Top期刊,IF=9.052)

[18] Shuai, D., J. Wei, B. Di, J. Guo*, D. Li, F. Gong, A. Stovas, 2020, Experimental study of crack density influence on the accuracy of effective medium theory: Geophysical Journal International, 220,352-369.

[17] 郭俊鑫*,方鑫定,2019,含平行裂缝储层中地震波频散、衰减及频变各向异性:应用声学,39,1-10 (邀稿).
[16] 韩学辉,郭俊鑫*,毛新军,等,2019,泥质砂岩黏土附加导电强度评价指数定义及应用方法:地球物理学报,62,4462-4471.

[15] Guo, J. *, T. Han*, L. Fu, and X. Fang, 2019, Effective elastic properties of transversely isotropic rocks permeated by aligned penny-shaped cracks: Journal of Geophysical Research: Solid Earth, 124, 400-424.

[14] Guo, J., C. Liu, and Y. Abousleiman*, 2019, Transversely isotropic poroviscoelastic bending beam solutions for low-permeability porous medium: Mechanics Research Communications, 95, 1-7. 

[13] Han, X., J. Nie, J. Guo*, L. Yang, and D. Xu, 2019, Rock physics modelling of elastic properties of organic shale considering kerogen stress and pore pressure distribution: Journal of Petroleum Science and Engineering, 174, 891-902.

[12] Han, X., D. Xu*, J. Guo, L. Yang, Z. Wang, D. Zhang, X. Luo, J. Nie, H. Li, and J. Jiang, 2018, Rock physics modelling for acoustic velocities of sandstone considering effects of cementation and compaction: Chinese Journal of Geophysics, 61(12), 5044-5051.

[11] Guo, J. , D. Shuai*, J. Wei, P. Ding, and B. Gurevich, 2018, P-wave dispersion and attenuation due to scattering by aligned fluid saturated fractures with finite thickness: Theory and experiment: Geophysical Journal International, 215, 2114-2133

[10] Fu, B., J. Guo *, L. Fu*, S. Glubokovskikh, R. J. Galvin, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rock with aligned slit cracks: Journal of Geophysical Research: Solid Earth, 123(8), 6890-6910. 
[9] Guo, J. *, J. G. Rubino, S. Glubokovskikh, and B. Gurevich, 2018, Dynamic seismic signatures of saturated porous rocks containing two orthogonal sets of fractures: Theory versus numerical simulations: Geophysical Journal International, 213, 1244-1262. 
[8] Guo, J. *, J. G. Rubino, N. D. Barbosa, S. Glubokovskikh, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rocks with aligned fractures of finite thickness: theory and numerical simulations – Part I: P-wave perpendicular to the fracture plane: Geophysics, 83, no. 1, WA49-WA62. 
[7] Guo, J.*, J. G. Rubino, N. D. Barbosa, S. Glubokovskikh, and B. Gurevich, 2018, Seismic dispersion and attenuation in saturated porous rocks with aligned fractures of finite thickness: theory and numerical simulations – Part II: Frequency-dependent anisotropy: Geophysics, 83, no. 1, WA63-WA71. 
[6] Guo, J.*, J. G. Rubino, S. Glubokovskikh, and B. Gurevich, 2017, Effects of fracture intersections on seismic dispersion: theoretical predictions versus numerical simulations: Geophysical Prospecting, 65, no.5, 1264-1276.
[5] Guo, J., and X. Han*, 2016, Rock physics modelling of acoustic velocities for heavy oil sand: Journal of Petroleum Science and Engineering, 145, 436-443. 
[4] X. Han, E. Wu, J. Guo *, D. Xu, Z. Sun, X. Luo, Z. Wang, and L Yang, 2017, Fluid factor index for fluid saturation estimation: Journal of Natural Gas Science and Engineering, 39, 72-81.
[3] Sun, Y.*, B. Gurevich, M. Lebedev, S. Glubokovskikh, V. Mikhaltsevitch, J. Guo, 2018, A triple porosity scheme for fluid/solid substitution: theory and experiment: Geophysical Prospecting, 67, 888-899. 
[2] X. Han*, J. Guo, F. Li, and L. Yang, 2014, Generalization of the expression of cementation radius in contact cement theory and its application: Chinese Journal of Geophysics, 57, 439-449. 
[1] X. Han*, J. Guo,F. Li, L. Yang, and J. Tang,2013,Modified acoustic velocity model for basal cemented loose sandstone based on contact cement theory (in Chinese):Journal of China University of Petroleum,37, 76-82.



会议摘要: 


Oral presentations:
[11] Guo, J., J. G. Rubino, S. Glubokovskikh, and B. Gurevich, 2017, Effects of fractures and background porosity on seismic dispersion and attenuation: theory versus numerical simulations: 4th International Workshop on Rock Physics.
[10] Guo, J., J. G. Rubino, B. Gurevich, and S. Glubokovskikh, 2017, Effects of finite fracture thickness on seismic dispersion and attenuation in saturated rocks with aligned penny-shaped cracks: theory versus numerical simulation: 6th Biot Conference on Poromechanics.
[9] Guo, J., J. G. Rubino, B. Gurevich, S. Glubokovskikh, A. V. Dyskin, and E. Pasternak, 2016, Effects of fracture intersections on seismic dispersion- Theoretical predictions versus numerical simulations: 78th EAGE Conference and Exhibition.
[8] Guo, J., J. G. Rubino, B. Gurevich, S. Glubokovskikh, 2016, Fluid flow effects on Seismic Properties of Fractured medium: Theoretical / Numerical modelling: SEG-AGU Workshop: Upper Crust Physics of Rocks.
[7] Han, X., J. Guo, 2016, An acoustic velocity model for heavy oil sand: 78th EAGE Conference and Exhibition.
[6] Guo, J., 2015, Poroviscoelastic behaviors of the shale sample in the three-point bending test: SEG New Orleans Annual Meeting.
[5] Guo, J., 2015, Estimation of permeability and viscoelastic properties of shale by three-point bending test: SEG New Orleans Annual Meeting.
[4] Han, X., J. Guo, 2014, Influence of contact thickness on the acoustic velocities of loose sandstone and its application: SEG Denver Annual Meeting.
E-posters:
[3] Han, X., D. Xu, J. Guo, J. Nie, 2017, Estimation of Unconsolidated sand porosity from texture parameters: 79th EAGE Conference and Exhibition, E-poster.
[2] Zhang, D., J. Guo, X. Han, L. Liu, 2017, Pre-stack seismic inversion for identification of complex thin sandstone interlayers-A case study: 79th EAGE Conference and Exhibition, E-poster.
[1] Guo, J., X. Han, and T. Lin, 2014, Definition of clay additional conductivity intensity index and its application: SEG Denver Annual Meeting, E-poster.


发明专利:


[3] 郭俊鑫、方鑫定,2018,一种岩石裂缝探测方法与系统,专利申请号:201811614226.5。

[2] 韩同城、郭俊鑫、等,2018,一种含平行裂缝横向各向同性岩石的声波速度计算方法,专利申请号:201811074705.2。

[1] 韩同城、郭俊鑫、等,2018,一种含倾斜裂缝横向各向同性岩石的声波速度计算方法,专利申请号:201811075122.1。


软件专利:


[4] Guo, J., Z. Yuan, L. Li, Z. Zhao, 2013, A software for matching between seismic and well logging data, China Patent: 2013SR017131.
[3] Guo, J., X. Han, 2013, A software for rock physics data processing, China Patent: 2013SR017221.
[2] Guo, J., X. Han, 2013, A software for rock physics data analysis, China Patent: 2013SR017224.
[1] Guo, J., X. Han, 2013, A software for rock physics data management, China Patent: 2013SR017236.