夏江海的个人简介
夏江海,创新人选长期项目。中国地质大学(武汉)教授,博士生导师,地球内部成像和探测实验室(Subsurface Imaging and Sensing Laboratory(SISL))主任。高频面波多道分析方法的原创者之一。据SCI期刊检索统计,已发表论文70余篇,总被引近1400次,h-指数18,g-指数35。目前正在组建地球内部成像和探测实验室。实验室研究方向是近地表地球物理,地震勘探,计算地球物理和地球物理软件开发。1977年至1979年在成都地质学院任教。1982年至1986年在武汉地质学院任教。1992年获得美国堪萨斯大学地质学专业(地球物理方向)博士学位。曾任美国堪萨斯大学堪萨斯地质调查所博士后研究助理(Post-doctoral Associate),助理研究员(Assistant Scientist),副研究员(Associate Scientist),研究员(Senior Scientist)和中国地质大学(武汉)“楚天学者”特聘教授(兼职)。从20世纪90年代开始从事近地表物质地球物理场响应及其应用方面的研究。近20年来主要研究方向是高频面波方法基础理论和应用。
人物经历
作为主要的研究人员,所在堪萨斯地质调查所课题组获得2002年“美国勘探地球物理学家学会杰出贡献奖”(The Society of Exploration Geophysicists Distinguished Achievement Award),被誉为国际浅层地震技术的引导者。因在高频面波研究中的贡献,获勘探地球物理学家学会近地表地球物理分会2008年“The Harold Mooney Award”奖。获美国环境与工程地球物理学家学会2008年年会最佳论文奖(Selected Best Paper)。受美国勘探地球物理学家学会(SEG)、美国地球物理学会(AGU)及美国工程与环境地球物理学家学会(EEGS)邀请为专著Advances in Near-surface Seismology and Ground-Penetrating Radar撰写高频面波方法研究的综述论文。作为特邀人员在环境与工程地球物理国际会议(ICEEG)、美国地球物理学会、美国勘探地球物理学家学会、美国地质学会(GSA)、欧洲地质学家和工程师学会(EAGE)、中国地球物理学会(CGS)、韩国地球物理学会(KSEG)、台湾大地工程学会等学术会议和学术机构作主旨或特邀报告30次。
现任Near Surface Geophysics副主编和SEG近地表地球物理分会特别工作委员会成员。曾任Journal of Environmental and Engineering Geophysics, Near Surface Geophysics和Journal of Earth Science的特邀主编。作为会议主席或副主席,参与筹备和主持了历届在中国举办的环境与工程地球物理国际会议,并使之成为在国际浅层地球物理学界具有重要影响力的学术会议。 经同行审阅后发表的论文
主要作品
高频面波
1. Zhang, Y., Xu, Y., and Xia, J., in press, Wave fields and spectra of Rayleigh waves in poroelastic media in the exploration seismic frequency band: .
2. Zeng, C., Xia, J., Miller, R.D., Tsoflias, G.P., and Wang, Z., in press, Numerical investigation of MASW applications in presence of surfacetopography: .
3. Xia, J., Xu, Y., Luo, Y., Miller, R.D., Cakir, R., and Zeng, C., 2012, Advantages of using multichannel analysis of Love waves (MALW) to estimate near-surface shear-wave velocity: , 33(5), 841-860.4. Xia, J., Xu, Y., Miller, R.D., and Ivanov, J., 2012, Estimation of near-surface quality factors by constrained inversion of Rayleigh-wave attenuation coefficients: . 82, 137-144. Zeng, C., Xia, J., Miller, R.D., and Tsoflias, G.P., 2012, An improved vacuum formulation for finite-difference modeling of Rayleigh waves including surface topography and internal discontinuity: , 77, No. 1, T1-T9.
6. Zeng, C., Xia, J., Miller, R.D., and Tsoflias, G.P., 2012, An improved vacuum formulation for finite-difference modeling of Rayleigh waves including surface topography and internal discontinuity: , 77, No. 1, T1-T9.
7. Zeng, C., Xia, J., Miller, R.D., and Tsoflias, G.P., 2011, Feasibility of waveform inversion of Rayleigh waves for shallow shear-wave velocity using genetic algorithm: , 75, 648-685.
8. Zhang, Y., Xu, Y., and Xia, J., 2011, Analysis of dispersion and attenuation of surface waves in poroelastic media: , 187(2), 871-888.
9. Zhang, K., Luo, Y., Xia, J., and Chen, C., 2011, Pseudospectral modeling and dispersion analysis of Rayleigh waves in viscoelastic media: , 31, 1332-1337.
10. Luo, Y., Xia, J., Xu, Y., and Zeng, C., 2011, Analysis of group-velocity dispersion of high-frequency Rayleigh waves for near-surface applications: , 74, 157-165.
11. Zeng, C., Xia, J., Miller, R.D., and Tsoflias, G.P., 2011, Application of the multiaxial perfectly matched layer (M-PML) to near-surface seismic modeling with Rayleigh waves: 76, no. 3, T43u2013T52.
12. Xia, J., and Miller, R.D., 2010, Estimation of near-surface shear-wave velocity and quality factor by inversion of high-frequency Rayleigh waves: the publication of Society of Exploration Geophysicists 17-36. ISBN 978-1-56080-224-2 (volume) -- ISBN 978-0-931830-41-9 (series)
13. Xia, J., Xu, Y., Miller,R.D., and Zeng, C., 2010, A trade-off solution between model resolution and covariance in surface-wave inversion: , 167(12), 1537-1547.
14. Luo, Y., Xia, J., Xu, Y., Zeng, C., and Liu, J., 2010, Finite-difference modeling and dispersion analysis of high-frequency Love waves for near-surface applications: 167(12), 1525-1536.
15. Luo, Y., Xia, J., Miller, R.D., Xu, Y., Liu, J., and Liu, Q., 2009, Rayleigh-wave mode separation by high-resolution linear Radon transform: 179(1), 254-264.
16. Xia, J., Miller,R.D., Xu, Y., Luo, Y., Chen, C., Liu, J., Ivanov, J., and Zeng, C., 2009, High-frequency Rayleigh-wave method: , 20(3), 563-579.
17. Xu, Y., Xia, J., and Miller, R.D., 2009, Approximation to cutoffs of higher modes of Rayleigh waves for a layered earth model: 166(3), 339-351.
18. Luo, Y., Xia, J., Xu, Y., Zeng, C., Miller, R.D., and Liu, Q., 2009, Dipping Interface mapping using mode-separated Rayleigh waves: , 166(3), 353-374.
19. Luo, Y., Xia, J., Liu, J., Xu, Y., and Liu, Q., 2009, Research on the middle-of-receiver-spread assumption of the MASW method: , 29(1), 71-79.
20. Xia, J., Miller,R.D., and Xu, Y., 2008, Data-resolution matrix and model-resolution matrix for Rayleigh-wave inversion using a damped least-square method: 165(7), 1227-1248.
21. Luo, Y., Xia, J., Miller, R.D., Xu, Y., Liu, J., and Liu, Q., 2008, Rayleigh-wave dispersive energy imaging by high-resolution linear Radon transform: 165(5), 903-922.
22. Luo, Y., Xia, J., Liu, J., Xu, Y., and Liu, Q., 2008, Generation of a pseudo-2D shear-wave velocity section by inversion of a series of 1D dispersion curves: , 64(3-4), 115-124.
23. Luo, Y., Xia, J., Liu, J., Liu, Q., and Xu, S., 2007, Joint inversion of high-frequency surface waves with fundamental and higher modes: , 62(4), 375-384.
24. Xia, J., Y. Xu, and R.D. Miller, 2007, Generating image of dispersive energy by frequency decomposition and slant stacking: 164(5), 941-956.
25. Xia, J., J.E. Nyquist, Y. Xu, M.J.S. Roth, and R.D. Miller, 2007, Feasibility of detecting near-surface feature with Rayleigh-wave diffraction: , 62(3), 244-253.
26. Xu, Y., Xia, J., and Miller, R.D., 2007, Numerical investigation of implementation of air/earth boundary by acoustic/elastic interface approach: 72(5), SM147-SM153.
27. Xia, J., Xu, Y., Miller, R.D., and Chen, C., 2006, Estimation of elastic moduli in a compressible Gibson half-space by inverting Rayleigh wave phase velocity: 27(1), 1-17.
28. Xia, J., Xu, Y., Chen, C., Kaufmann, R.D., and Luo, Y., 2006, Simple equations guide high-frequency surface-wave investigation techniques: 26(5), 395-403.
Xu, Y., Xia, J., and Miller, R.D., 2006, Quantitative estimation of minimum offset for multichannel surface-wave survey with actively exciting source: 59(2), 117-125.
30. Chen, C., Liu, J., Xia, J., and Li, Z., 2006, Integrated geophysical techniques in detecting hidden dangers in river embankments: 11(2), 83-94.
31. Ivanov, J., Miller, R.D., Xia, J., Steeples, D.W., and Park, C.B., 2006, Joint analysis of refractions with surface waves: An inverse solution to the refraction-traveltime problem: , 71(6), R131-R138.
32. Xia, J., Chen, C., Tian, G., Miller, R.D., and Ivanov, J., 2005, Resolution of high-frequency Rayleigh-wave data: 10(2), 99-110.
33. Kaufmann, R.D., Xia, J., Benson, R., Yuhr, L.B., Casto, D.W., and Park, C.B., 2005, Evaluation of MASW data acquired with a hydrophone streamer in a shallow marine environment: 10(2), 87-98.
34. Ivanov, J., Park, C.B., Miller, R.D., and Xia, J., 2005, Analyzing and filtering surface-wave energy by muting shot gathers: 10(3), 307-321.
35. Park, C.B., Miller, R.D., Ryden, N., Xia, J., and Ivanov, J., 2005, Combined use of active and passive surface waves: 10(3), 323-334.
36. Xia, J., Chen, C., Li, P.H., and Lewis, M.J., 2004, Delineation of a collapse feature in a noisy environment using a multichannel surface wave technique: 54(1), 17-27.
37. Zhang, S.X., Chan, L.S., and Xia, J., 2004, The selection of field acquisition parameters for dispersion images from multichannel surface wave data: , 161, 185-201.
38. Xia, J., Miller, R.D., Park, C.B., and Tian, G., 2003, Inversion of high frequency surface waves with fundamental and higher modes: , 52(1), 45-57.
Tian, G., Steeples, D.W., Xia, J., and Spikes, K.T., 2003, Useful resorting in surface wave method with the autojuggie: 68(6), 1906-1908.
40. Tian, G., Steeples, D.W., Xia, J., Miller, R.D., Spikes, K.T., and Ralston, M.D., 2003, Multichannel analysis of surface wave method with the autojuggie: 23(3), 243-247.
Xia, J., Miller, R.D., Park, C.B., and Tian, G., 2002, Determining of near-surface materials from Rayleigh waves: , 51(2-4), 121-129.
Xia, J., Miller, R.D., Park, C.B., Wightman, E., and Nigbor, R., 2002, A pitfall in shallow shear-wave refraction surveying: , 51(1), 1-9.
43. Xia, J., Miller, R.D., Park, C.B., Hunter, J.A., Harris,J.B., and Ivanov, J., 2002, Comparing shear-wave velocity profiles from multichannel analysis of surface wave with borehole measurements: , 22(3), 181-190.
44. Xia, J., Miller, R.D., Park, C.B., Hunter, J.A., and Harris, J.B., 2000, Comparing shear-wave velocity profiles from MASW with borehole measurements in unconsolidated sediments, Fraser River Delta, B.C., Canada: 5(3), 1-13.
45. Xia, J., Miller, R.D., and Park, C.B., 1999, Estimation of near-surface shear-wave velocity by inversion of Rayleigh wave: , 64, 691-700.
46. Park, C.B., Miller, R.D., and Xia, J., 1999, Multi-channel analysis of surface waves: , 64, 800-808.
反射和折射
47. Liu, J., Zeng, X., Xia, J., and Mao, M., 2012, The separation of P- and S-wave components from three-component cross-well seismic data: . 82, 163-170.
48. Hunter, J.A., Motazedian, D., Crow, H.L., Brooks, G.R., Miller, R.D., Pugin, A.J-M., Pullan, S.E., and Xia, J., 2010, Near-surface shear wave velocity measurements for soft soil earthquake hazard assessment: Some Canadian mapping examples: the publication of Society of Exploration Geophysicists 339-360. ISBN 978-1-56080-224-2 (volume) -- ISBN 978-0-931830-41-9 (series)
49. Ivanov, J., Miller, R.D., Xia, J., Dunbar, J.B., and Walters, S., 2010, Refraction nonuniqueness studies at levee sites using the refraction-tomography and JARS methods: the publication of Society of Exploration Geophysicists 327-338. ISBN 978-1-56080-224-2 (volume) -- ISBN 978-0-931830-41-9 (series)
50. Miller, R.D., Xia, J., and Steeples, D.W., 2009, Seismic reflection characteristics of naturally-induced subsidence affecting transportation: , 20(3), 496-512.
51. Liu, J., J. Xia, Y. Luo, C. Chen, X. Li, and Y. Huang, 2007, Wave field features of shallow vertical discontinuity and their application in non-destructive detection: , 62(3), 270-280.
52. Xia, J., Geier, N.A., Miller, R.D., and Tapie, C.R., 2005, Orthogonal vibroseis sweeps: , 53(5), 677-688.
53. Miller, R.D., Xia, J., and Park, C.B., 2005, Seismic techniques to delineate dissolution features (Karst) at a proposed power plant site: Soc. Explor. Geophys., Investigations in Geophysics no. 13, Dwain K. Butler, ed., , p. 663-679.
54. Miller, R.D., Villella, A., Xia, J., and Steeples, D.W., 2005, Seismic investigation of a salt dissolution feature in Kansas: Soc. Explor. Geophys., Investigations in Geophysics no. 13, Dwain K. Butler, ed., , p. 681-694.
Liu, J., Xia, J., Chen, C., and Zhang, G., 2005, Accurate elevation and normal moveout corrections of seismic reflection data on rugged topography: 48(4), 707-716.
56. Ivanov, J., Miller, R.D., Xia, J., Steeples, D.W., and Park, C.B., 2005, The inverse problem of refraction traveltimes, part I: Types of geophysical nonuniqueness through minimization: , 162(3), 447-459.
57. Ivanov, J., Miller, R.D., Xia, J., and Steeples, D.W., 2005, The inverse problem of refraction traveltimes, part II: Quantifying refraction nonuniqueness using a three-layer model: , 162(3), 461-477.
58. Xia, J., and Miller, R.D., 2000, Fast estimation of parameters of a layered-dipping earth model by inverting reflected waves: , 5(2), 21-29.
59. Xia, J., and Miller, R.D., 2000, Design of a hum filter for suppressing power-line noise in seismic data: , 5(2), 31-38.
60. Miller, R.D., and Xia, J., 1998, Large near-surface velocity gradients on shallow seismic reflection data: , 63, 1348-1356.
61. Doll, W.E., Miller, R.D., and Xia, J., 1998, A non-invasive shallow seismic source comparison on the Oak Ridge Reservation, Tennessee: , 63, 1318-1331.
62. Miller, R.D., Markiewicz, R.D., Merey, C., Xia, J., and Maples, C.G., 1995, Improvements in shallow high resolution seismic reflection through PC based systems: , 21(8), 957-964.
探地雷达
63. Xia, J., Franseen, E.K., Miller, R.D., and Weis, T.V., 2004, Application of deterministic deconvolution of ground-penetrating radar data in a study of carbonate strata: 56(3), 213-229.
64. Xia, J., Franseen, E.K., Miller, R.D., Weis, T.V., and Byrnes, A.P., 2003, Improving ground-penetrating radar data in sedimentary rocks using deterministic deconvolution: , 54(1-2), 15-33.
位场
65. Xia, J., Ludvigson, G., Miller, R.D., Mayer, L., and Haj, A., 2010, Feasibility of delineating a volcanic ash body using electrical resistivity profiling: 7, 267-276.
66. Xia, J., and Miller, R.D., 2007, Integrated geophysical survey in defining subsidence features on a golf course: 4, 443-451.
67. Chen, C., Xia, J., Liu, J., and Feng, G., 2006, Nonlinear inversion of potential-field data using a hybrid-encoding genetic algorithm: , 32(2), 230-239.
68. Xia, J., Doll, W.E., Miller, R.D., Gamey, T.J., and Emond, A.M., 2005, A moving hum filter to suppress rotor noise in high-resolution airborne magnetic data: , 70(4), G69-G76.
69. Xia, J., Sprowl, D.R., and Steeples, D.W., 1996, A model of Precambrian geology of Kansas from gravity and magnetic data: , 22, 883-895.
70. Zou, S., Xia, J., and Koussis, A.D., 1996, Analytical solutions to non-fickian subsurface dispersion in uniform groundwater flow: , 179, 237-258.
71. Xia, J., 1996, A geophysical model from potential-field data in Montgomery County: Kansas Geological Survey/Kansas Geological Society, Bulletin 237, 17 u2013 21.
72. Xia, J., and Sprowl, D.R., 1995, Moho depths in Kansas from gravity inversion assuming exponential density contrast: , 21, 237-244.
73. Xia, J., Miller, R.D., and Steeples, D.W., 1995, Aeromagnetic map of Kansas, reduced to the pole with second vertical derivative calculated: Kansas Geological Survey Map Series, M-41A.
74. Xia, J., Miller, R.D., and Steeples, D.W., 1995, Bouguer gravity map of Kansas, second vertical derivative calculated: Kansas Geological Survey Map Series, M-41B.
75. Xia, J., Sprowl, D.R., Steeples, D.W., and Miller, R.D., 1995, Model of Precambrian geology of Kansas: Kansas Geological Survey Map Series, M-41C.
76. Xia, J., Miller, R.D., and Steeples, D.W., 1995, Aeromagnetic map of Kansas, reduced to a horizontal plane and reduced to the pole: Kansas Geological Survey Map Series, M-41D.
77. Xia, J., Miller, R.D., Steeples, D.W., and Adkins-Heljeson, D., 1995, Residual Bouguer gravity map of Kansas, the second order regional trend removed: Kansas Geological Survey Map Series, M-41E.
78. Xia, J., Miller, R.D., Steeples, D.W., and Adkins-Heljeson, D., 1995, Residual aeromagnetic map of Kansas, second order regional trend removed: Kansas Geological Survey Map Series, M-41F.
79. Xia, J., Sprowl, D.R., and Adkins-Heljeson, D., 1993, Correction of topographic distortions in potential-field data: a fast and accurate approach: , 58, 515-523.
80. Xia, J., and Sprowl, D.R., 1992, Inversion of potential field data by iterative forward modeling in the wavenumber domain: , 57, 126-130.
81. Xia, J., Yarger, H., Lam, C., Steeples, D.W., and Miller, R.D., 1992, Bouger gravity map of Kansas: Kansas Geological Survey Map Series, M-31.
82. Xia, J., and Sprowl, D.R., 1991, Correction of topographic distortions in gravity data: , 56, 537-541.
