夏江海,現任浙江大學地球科學學院傑出教授、博士生導師。高頻面波多道分析方法的原創者之一。據SCI期刊檢索統計,已發表論文70餘篇,總被引近1400次,h-指數18, g-指數35。目前正在組建地球內部成像和探測實驗室。實驗室研究方向是近地表地球物理,地震勘探,計算地球物理和地球物理軟體開發。曾任美國堪薩斯大學堪薩斯地質調查所研究員,中國地質大學(武漢)教授、博士生導師、地球內部成像和探測實驗室(Subsurface Imaging and Sensing Laboratory (SISL))主任。
1977年至1979年在成都地質學院任教。1982年至1986年在武漢地質學院任教。1992年獲得美國堪薩斯大學地質學專業(地球物理方向)博士學位。曾任美國堪薩斯大學堪薩斯地質調查所博士後研究助理(Post-doctoral Associate),助理研究員(Assistant Scientist), 副研究員(Associate Scientist),研究員(Senior Scientist)。從20世紀90年代開始從事近地表物質地球物理場回響及其套用方面的研究。近20年來主要研究方向是高頻面波方法基礎理論和套用。
2016年9月26日,夏江海加盟浙江大學地球科學學院。
基本介紹
人物經歷,主要作品,
人物經歷
作為主要的研究人員,所在堪薩斯地質調查所課題組獲得2002年“美國勘探地球物理學家學會傑出貢獻獎”(The Society of Exploration Geophysicists Distinguished Achievement Award),被譽為國際淺層地震技術的引導者。因在高頻面波研究中的貢獻,獲勘探地球物理學家學會近地表地球物理分會2008年“The Harold Mooney Award”獎。獲美國環境與工程地球物理學家學會2008年年會最佳論文獎(Selected Best Paper)。受美國勘探地球物理學家學會(SEG)、美國地球物理學會(AGU)及美國工程與環境地球物理學家學會(EEGS)邀請為專著Advances in Near-surface Seismology and Ground-Penetrating Radar撰寫高頻面波方法研究的綜述論文。作為特邀人員在環境與工程地球物理國際會議(ICEEG)、美國地球物理學會、美國勘探地球物理學家學會、美國地質學會(GSA)、歐洲地質學家和工程師學會(EAGE)、中國地球物理學會(CGS)、韓國地球物理學會(KSEG)、台灣大地工程學會等學術會議和學術機構作主旨或特邀報告30次。
現任Near Surface Geophysics副主編和SEG近地表地球物理分會特別工作委員會成員。曾任Journal of Environmental and Engineering Geophysics, Near Surface Geophysics和Journal of Earth Science的特邀主編。作為會議主席或副主席,參與籌備和主持了歷屆在中國舉辦的環境與工程地球物理國際會議,並使之成為在國際淺層地球物理學界具有重要影響力的學術會議。
經同行審閱後發表的論文
主要作品
高頻面波
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:Advances in Water Resources.
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: Journal of Applied Geophysics.
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: Surveys in Geophysics, 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: Journal of Applied Geophysics. 82, 137-144.5.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: Geophysics, 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: Geophysics, 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:Journal of Applied Geophysics, 75, 648-685.
8. Zhang, Y., Xu, Y., and Xia, J., 2011, Analysis of dispersion and attenuation of surface waves in poroelastic media: Geophysical Journal International, 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: Soil Dynamics and Earthquake Engineering, 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:Journal of Applied Geophysics, 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: Geophysics, 76, no. 3, T43–T52.
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: inAdvances in Near-surface Seismology and Ground Penetrating Radar,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: Pure and Applied Geophysics, 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:Pure and Applied Geophysics, 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:Geophysical Journal International, 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: Journal of Earth Science, 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: Pure and AppliedGeophysics,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: Pure and Applied Geophysics, 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: Soil Dynamics and Earthquake Engineering, 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: Pure and Applied Geophysics,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:Pure and Applied Geophysics,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:Journal of Applied Geophysics, 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:Journal of Applied Geophysics, 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:Pure and Applied Geophysics, 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: Journal of Applied Geophysics, 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:Geophysics,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: Surveys in Geophysics, 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: Soil Dynamics and Earthquake Engineering. 26(5), 395-403.
29.Xu, Y., Xia, J., and Miller, R.D., 2006, Quantitative estimation of minimum offset for multichannel surface-wave survey with actively exciting source:Journal of Applied Geophysics, 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:Journal of Environmental and Engineering Geophysics,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: Geophysics, 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: Journal of Environmental and Engineering Geophysics,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: Journal of Environmental and Engineering Geophysics,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: Journal of Environmental and Engineering Geophysics,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: Journal of Environmental and Engineering Geophysics,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: Geotechnique,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:Pure and Applied Geophysics, 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: Journal of Applied Geophysics, 52(1), 45-57.
39.Tian, G., Steeples, D.W., Xia, J., and Spikes, K.T., 2003, Useful resorting in surface wave method with the autojuggie: Geophysics,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: Soil Dynamics and Earthquake Engineering, 23(3), 243-247.
41.Xia, J., Miller, R.D., Park, C.B., and Tian, G., 2002, Determining Q of near-surface materials from Rayleigh waves: Journal of Applied Geophysics, 51(2-4), 121-129.
42.Xia, J., Miller, R.D., Park, C.B., Wightman, E., and Nigbor, R., 2002, A pitfall in shallow shear-wave refraction surveying:Journal of Applied Geophysics, 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:Soil Dynamics and Earthquake Engineering, 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: Journal of Environmental and Engineering Geophysics,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: Geophysics, 64, 691-700.
46. Park, C.B., Miller, R.D., and Xia, J., 1999, Multi-channel analysis of surface waves: Geophysics, 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: Journal of Applied Geophysics. 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: in Advances in Near-surface Seismology and Ground Penetrating Radar,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: in Advances in Near-surface Seismology and Ground Penetrating Radar,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:Journal of Earth Science, 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:Journal of Applied Geophysics, 62(3), 270-280.
52. Xia, J., Geier, N.A., Miller, R.D., and Tapie, C.R., 2005, Orthogonal vibroseis sweeps: Geophysical Prospecting, 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., Near-Surface Geophysics, 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., Near-Surface Geophysics, p. 681-694.
55.Liu, J., Xia, J., Chen, C., and Zhang, G., 2005, Accurate elevation and normal moveout corrections of seismic reflection data on rugged topography:New Zealand Journal of Geology and Geophysics, Royal Society of New Zealand. 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: Pure and Applied Geophysics, 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: Pure and Applied Geophysics, 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: Journal of Environmental and Engineering Geophysics, 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: Journal of Environmental and Engineering Geophysics, 5(2), 31-38.
60. Miller, R.D., and Xia, J., 1998, Large near-surface velocity gradients on shallow seismic reflection data: Geophysics, 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:Geophysics, 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: Computers & Geosciences, 21(8), 957-964.
探地雷達
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: Journal of Applied Geophysics, 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: Journal of Applied Geophysics, 54(1-2), 15-33.
位場
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:Journal of Geophysics and Engineering, 7, 267-276.
66. Xia, J., and Miller, R.D., 2007, Integrated geophysical survey in defining subsidence features on a golf course: Journal of Geophysics and Engineering, 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: Computers and Geosciences, 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: Geophysics, 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: Computers & Geosciences, 22, 883-895.
70. Zou, S., Xia, J., and Koussis, A.D., 1996, Analytical solutions to non-fickian subsurface dispersion in uniform groundwater flow:Journal of Hydrology, 179, 237-258.
71. Xia, J., 1996, A geophysical model from potential-field data in Montgomery County: Geophysical Atlas of Kansas Hydrocarbon Pools, Kansas Geological Survey/Kansas Geological Society, Bulletin 237, 17 – 21.
72. Xia, J., and Sprowl, D.R., 1995, Moho depths in Kansas from gravity inversion assuming exponential density contrast: Computers & Geosciences, 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:Geophysics, 58, 515-523.
80. Xia, J., and Sprowl, D.R., 1992, Inversion of potential field data by iterative forward modeling in the wavenumber domain: Geophysics, 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: Geophysics, 56, 537-541.
