有限频与射线层析成像比较研究综述
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摘要
从正演近似性和反演多解性两方面对有限频与射线理论的争论历史和比较研究进展进行介绍并评述.从早期的衍射层析成像开始,回顾了有限频理论的发展历史.详细介绍了2005至2006年间有限频理论的拥护者与质疑者之间的一场影响深远的争论.这场争论纠正了之前十多年许多地震学家将地震波相关走时与初至走时相混淆的错误认识,使有限频理论得到广泛认可,但有限频层析成像的实际分辨能力是否强于射线层析成像分歧很大.争论之后,有限频与射线层析成像比较研究成为一个研究方向.在体波领域,正演理论和实际反演的比较研究显示出两者有明显的差别,而合成反演实验因计算量问题没有取得突破性进展.在面波领域,正演理论、实际反演和合成反演实验都有深入的比较研究,显示两者的差别不是很大.
From the approximation of forward simulation and the non-uniqueness of inversion aspects,the controversial history and review of finite-frequency theory and ray theory are introduced with comments.Beginning with the early diffraction tomography,the developing history of finite-frequency theory is reviewed.The controversy between the defenders and the oppugners of finite-frequency theory from 2005 to 2006 is introduced in detail.It has a far-reaching influence.The controversy,which corrected the misconception of lots of seismologists.They confused the cross-correlation traveltime with the differential traveltime of first-arrival for more than ten years and made the finite-frequency theory widely recognized.However,there were contrary opinions on whether its tomography resolution is stronger than that of ray theory.After the controversy,the comparative study between them becomes a research field.In the research of body wave,the comparison of forward theory and inversion used real data indicates that obvious differences exist,while the synthetic inversion test has got no breakthrough.In the field of surface wave research,deep study is in three aspects which indicates no significant difference between the two tomography theory.
From the approximation of forward simulation and the non-uniqueness of inversion aspects,the controversial history and review of finite-frequency theory and ray theory are introduced with comments.Beginning with the early diffraction tomography,the developing history of finite-frequency theory is reviewed.The controversy between the defenders and the oppugners of finite-frequency theory from 2005 to 2006 is introduced in detail.It has a far-reaching influence.The controversy,which corrected the misconception of lots of seismologists.They confused the cross-correlation traveltime with the differential traveltime of first-arrival for more than ten years and made the finite-frequency theory widely recognized.However,there were contrary opinions on whether its tomography resolution is stronger than that of ray theory.After the controversy,the comparative study between them becomes a research field.In the research of body wave,the comparison of forward theory and inversion used real data indicates that obvious differences exist,while the synthetic inversion test has got no breakthrough.In the field of surface wave research,deep study is in three aspects which indicates no significant difference between the two tomography theory.
引文
[1]Niu Y L.On the great plume debate[J].Chinese Science Bulletin, 2005,50(15):1537-1540.
[2]Foulger G R.Mantle plumes:Why the current skepticism?[J]. Chinese Science Bulletin,2005,50(15):1555-1560.
[3]Dahlen F A,Hung S H,Nolet G.Frechet kernels for finitefrequency traveltimes—Ⅰ.Theory[J].Geophys.J.Int., 2000,141:157-174.
[4]Zhao L,Jordan T H,Chaptman C H.Three-dimensional Frechet differential kernels for seismic delay time[J].Geophys.J. Int.,2000,141:558-576.
[5]徐小明,史大年,李信富.有限频层析成像方法研究进展.地球物理学进展,2009,24(2):432-438. Xu X M,Shi D N,Li X F.Research progress of the finitefrequency tomography method.Progress in Geophys.(in Chinese),2009,24(2).432-438.
[6]杨峰,黄金莉.有限频率地震层析成像方法及研究进展.地震,2009,29(4):52-62. Yang Feng & Huang Jin-li.Finte-frequency seismic tomography:methods and progreses.Earthquake,2009(4): 52-62.
[7]刘玉柱,董良国,李陪明,等,初至波菲涅尔体地震层析成像.地球物理学报,2009,52(9):2310-2320. Liu Y Z,Dong L G,Li P M.et al.Fresenl volume tomography based on the first arrival of the seismic wave, Chinese J.Geophys.(in Chinese),2009,52(9):2310- 2320.
[8]杨峰,黄金莉,杨挺.应用远震有限频率层析成像反演首都圈上地幔速度结构[J]地球物理学报,2010,53(8):1806- 1816. Yang F,Huang J L,Yang T.Upper mantle structure beneath the Chinese capital region from teleseismic finite-frequency tomography[J]Chinese Journal Geophysics.2010,53(8): 1806-1816.
[9]洪淑蕙,Biao Kuo,Qi Yuan Liu等.龙门山地区地壳及上地幔结构的应用多重尺度有限频宽走时层析成像[J].国际地震动态,2010,6:29-30. Shu-Huei Hung,Biao Kuo,Qi-Yuan Liu,et al.Multi-scale, finite-frequency travel-time tomography of the crust and upper mantle structure in the Longmenshan region.Recent Developments in World Seismology,2010.6:29—30.
[10]万柯松,倪四道,赵里.龙门山周边地区地震波速度结构的有限频率反演,国际地震动态,2010,6:16. Wan Kesong,Ni Sidao,Zhao Li.Finite frequency waveform inversion for velocity structure in Longmenshan area Recent Developments in World Seismology,2010,6:16.
[11]鲁来玉,丁志峰,何正勤.浅层有限频率面波成像中的3D灵敏度核分析[J].地球物理学报,2011,54(1):55-66. Lu L Y,Ding Z F,He Z Q.Analysis of 3D sensitivity kernels of the finite frequency surface wave tomography in shallow subsurface.Chinese J.Geophys.(in Chinese),2011, 54(1):55-66.
[12]Zhou Y.Surface-wave sensitivity to 3-D anelasticity.Geophys. J.Int.,2009,178:1403-1410.
[13]Tian Y,Sigloch K,Nolet G.Multiple-frequency SH-wave tomography of the western US upper mantle.Geophys.J. Int.,2009,178:1384-1402.
[14]Fichtner A,Kennett B L N,Igel H.et al.Full seismic waveform tomography for upper-mantle structure in the Australasian region using adjoint methods.Geophys.J. Int.,2009,179:1703-1725.
[15]Morency C,Luo Y,Tromp J.Finite-frequency kernels for wave propagation in porous media based upon adjoint methods.Geophys.J.Int.,2009,179:1148-1168.
[16]Sieminski A,Trampert J,Tromp J.Principal component analysis of anisotropic finite-frequency sensitivity kernels. Geophys.J.Int.,2009,179:1186-1198.
[17]Stich D,Danecek P.MorelliA,et al.Imaging lateral heterogeneity in the northern Apennines from time reversal of reflected surface waves.Geophys.J.Int.,2009,177:543- 554.
[18]Tape C,Liu Q Y,Maggi A,et al.Adjoint tomography of the southern California crust.Science,2009,325:988- 992.
[19]Zhu H J,Luo Y,Nissen-Meyer T,et al.Elastic imaging and time-lapse migration based on adjoint methods.Geophysics, 2009,74,No.6:WCA167-WCA177.
[20]To A,Romanowicz B.Finite frequency effects on global S diffracted traveltimes.Geophys.J.Int.2009,179:1645- 1657.
[21]Yang T,Grand S P,Wilson D.Seismic structure beneath the Rivera subduction zone from finite-frequency seismic tomography.J.Geophys.Res.,2009,114,B01302,doi: 10.1029/2008JB005830.
[22]Liu Y Z,Dong L G,Wang Y W,et al.Sensitivity kernels for seismic Fresnel volume tomography.Geophysics,2009, 74,No.5:U35-U46.
[23]Hung S H,Chen W P,Chiao L Y,et al.First multi-scale, finite-frequency tomography illuminates 3-D anatomy of the Tibetan Plateau.Geophys.Res.Lett.,2010,37,L06304, doi:10.1029/2009GL041875.
[24]Fichtner A,Kennett B L N,Igel H,et al.Full waveform tomography for radially anisotropic structure:New insights into present and past states of the Australasian upper mantle. Earth Planet.Sci.Lett.2010,290:270-280.
[25]Tape C,Liu Q Y,Maggi A,et al.Seismic tomography of the southern California crust based on spettral-element and adjoint methods.Geophys.J.Int.,2010,180:433-462.
[26]Lin F C,Ritzwoller M H.Empirically determined finite frequency sensitivity kernels for surface waves.Geophys.J. Int.,2010,182:923-932.
[27]Bezada M J,Levander A,Schmandr B.Subduction in the southern Caribbean:Images from finite-frequency P wave tomography.J.Geophys.Res.,2010,115,B12333,doi: 10.1029/2010JB007682.
[28]Leeuwen T,van & Mulder W A.A correlation-based misfit criterion for wave-equation traveltime tomography.Geophys. J.Int.,2010,182:1383-1394.
[29]Lin F C,Ritzwoller M H.empirically determined finite frequency sensitivity kernels for surface waves.Geophys.J. Int.,2010,182:923-932.
[30]Liang X F,Shen Y,Chen J Y,et al.Crustal and mantle velocity models of southern Tibet from finite frequency tomography.J.Geophys.Res.,2011,116,B02408,doi: 10.1029/2009JB007159.
[31]Aki K,Richards P G.Quantitative seismology theory and methods[M],U.S.A.;W.H.Freeman and Company, 1980,728-751.
[32]Devaney A J,Zhang D.Geophysical diffraction tomography in a layed background[J].Wave Motion,1991,14:243- 265.
[33]Bleistein N,Xohwn J K,Hagin F G.2-1/2 dimensional Born inversion with an arbitrary reference[J].Geophysics,1987, 52:26-36.
[34]Wu R S,Araujo F V.Multi-frequency backscattering tomography (MFBT) for boundary scattering and for volume scattering [A].In:Brazilian Geophysical Society,2~(nd) Intern.Congress of the Brazilian Geophysical Society,Expanded Abstracts [C].Brazil:1991,821-825.
[35]Langenberg K J,Kreutter T.Holographic imaging with elastic waves[A].In:edited by Berkhout et al.,Acoustic Imaging[C].New York:Plenum Press,1985,14.
[36]Gelius L,Johansen J I,Ponnheim N S,et al.A generalized diffraction tomography algorithm[J].J.Acoust.Soc.Am., 1991,89:523-528.
[37]Woodward M.Wave equation tomography[J].Geophysics, 1992,57:15-26.
[38]Luo Y,Schuster G T.Wave-equation traveltime inversion [J].Geophysics,1991,56:645-653.
[39]Luo Y,Schuster G T.Wave equation inversion of skeletalized geophysical data[J].Geophys.J.Int.,1991,105:289- 294.
[40]Vasco D W,Majer E L.Wavepath travel-time tomography [J].Geophys.J.Int.,1993,115:1055-1069.
[41]Yomogida K,Aki K.Amplitude and phase data inversion for phase velocity anomalies in the Pacific Ocean basin[J]. Geophys.J.R.astr.Soc.,1987,88:161-204.
[42]Yomogida K.Fresnel zone inversion for latereal heterogeneities in the Earth.Pure Appl.Geophys[J].,1992,138:391-406.
[43]Tanimoto T.Modelling curved surface wave paths:membrane surface wave synthetics[J].Geophys.J.Int.,1990,102: 89-100.
[44]Tromp J,Dahlen F A.Variational principles for surface wave propagation on a laterally heterogeneous Earth-Ⅲ.Potential representation[J].Geophys.J.Int.,1993,112:195-209.
[45]Li X D,Giardini D,Woodhouse J H.Large-scale 3-dimensional even-degree structure of the earth from splitting of long-period normal-modes[J],J.Geophys.Res.,1991,96:551-577.
[46]Widmer R,Masters G,Gilbert F.Spherically symmetrical attenuation within the earth from normal mode data[J]. Geophys.J.Int.,1991,104:541-553.
[47]Li X D,Tanimoto T.Waveforms of long-period body waves in a slightly aspherical Earth model[J].Geophys.J.Int., 1993,112:92-102.
[48]Tanimoto T.Formalish for traveltime inversion with finite frequency effects.Geophys.J.Int[J].1995,121:103- 110.
[49]Marquering H,Snieder R.Surface-wave mode coupling for efficient forward modeling and inversion of body-wave phases [J].Geophys.J.Int.,1995,120:186-208.
[50]Marquering H,Snieder R,Nolet G.Waveform inversions and the significance of surface-wave mode coupling[J]. Geophys.J.Int.,1996,124:258-278.
[51]Li X D,Romanowicz B.Comparison of global waveform inversions with and without considering cross-branch modal coupling[J].Geophys.J.Int.,1995,121:695-709.
[52]Li X D,Romanowicz B.Global mantle shear-velocity model developed using nonlinear asymptotic coupling theory.J. Geophys.Res.,1996,101:22245-22272.
[53]Snieder R.3-D linearized scattering of surface waves and a formalism for surface wave holography[J].Geophys.J.R. astr.Soc.,1986,84:581-605.
[54]Snieder R,Nolet G.Linearized scattering of surface waves on a spherical Earth[J].J.Geophys.,1987,61:55-63.
[55]Meier T,Lebedev S,Nolet G,Dahlen F A.Diffraction tomography using multimode surface waves[J].J.Geophys. Res.,1997,102:8255-8267.
[56]Marquering H,Nolet G,Dahlen F A.Three-dimensional waveform sensitivity kernels[J].Geophys.J.Int.,1998, 132:521-534.
[57]Zhao L,Jordan T H.Sensitivity of frequency-dependent traveltimes to laterally heterogeneous,anisotropic Earth structured].Geophys.J.Int.,1998,133:683-704.
[58]Katzman R,Zhao L,Jordan T H.High-resolution,twodimensional vertical tomography of the central Pacific mantle using ScS reverberations and frequency-dependent travel times[J].J.Geophys.Res.,1998,103:17933-17971.
[59]Tong J,Dahlen F A,Nolet G,et al.Diffraction effects upon finte-frequency travel times:a simple 2-D example[J]. Geophys.Res.Lett.,1998,25(11):1983-1986.
[60]Marquering H,Dahlen F A,Nolet G.Three-dimensional sensitivity kernels for finite-frequency traveltimes:the banana-doughnut paradox[J].Geophys.J.Int.,1999,137: 805-815.
[61]Montelli R,Nolet G,Masters G,et al.Global P and PP traveltime tomography:rays versus waves[J].Geophys.J. Int.,2004,158:637-654.
[62]Montelli R,Nolet G,Dahlen F A,Masters G,etal.Finitefrequency tomography reveals a variety of plumes in the mantle[J].Science,2004,303:338-343.
[63]de Hoop,M.V.& Van der Hilst,R.D.On sensitivity kernels for 'wave-equation' transmission tomography[J]. Geophys.J.Int.,2005,160:621-633.
[64]de Hoop,M.V.& Van der Hilst,R.D.Reply to comment by F.A.Dahlen and G.Nolet on'On sensitivity kernels for 'wave-equation' transmission tomography'[J].Geophys. J.Int.,2005,163:952-955.
[65]Van der Hilst,R.D.& de Hoop,M.V.Banana-doughnut kernels and mantle tomography[J].Geophys.J.Int.,2005, 163:956-961.
[66]Van der Hilst,R.D.& de Hoop,M.V.Reply to comment by R.Montelli,G.Nolet and F.A.Dahlen on 'Bananadoughnut kernels and mantle tomography'[J].Geophys.J. Int.,2006,167:1211-1214.
[67]Dahlen,F.A.& Nolet G.Comment on 'On sensitivity kernels for 'wave-equation' transmission tomography' by de Hoop and van der Hilst[J].Geophys.J.Int.,2005,163: 949-951.
[68]Montelli R,Nolet G,Dahlen F A.Comment on 'Bananadoughnut kernels and mantle tomography' by van der Hilst and de Hoop.Geophys[J].J.Int.,2006,167:1204- 1210.
[69]Robinson E A,Treitel S.Geophysical Signal Analysis[M]. U.S.A.:PrenticeHall,Englewood Cliffs,New Jersey, 1980.
[70]Dziewonsk F,Bloch S,Landisman M.A technique for the analysis of transient seismic signals[J].Bull.Seism.Soc. Am.1969,59:417-444.
[71]StokoeK H II,Nazarian S.Effectiveness of ground improvement from spectral analysis of surface waves[A].In: Proc.8~(th) Euro Conf On Soil Mech and Found Eng.,1983.
[72]VanDecar J,Crosson R.Determination of teleseismic relative phase arrival times using multi-channel cross-correlation and least squares[J].Bull.Seism.Soc.Am.1991,80:150—159.
[73]Su W J,Dziewonski A M.Predominance of long wavelength heterogeneity in the mantle[J].Nature,1991,352:121- 126.
[74]Woodward R L,Masters G.Upper mantle structure from long-period differential traveltimes and free oscillation data [J].Geophys.J.Int.,1992,109:275-293.
[75]Zhang Y S,Tanimoto T.High-resolution global upper mantle structure and plate tectonics[J].J.Geophys.Res.,1993, 98:9793-9823.
[76]Grand S P.Mantle shear structure beneath the Americas and surrounding oceans[J].J.Geophys.Res.,1994,99:11591- 11621.
[77]Wysession M E,Valenzuela R W,Zhu A N,et al. Investiagting the base of the mantle using differential travels times[J].Phys.Earth Planet.Int.,1995,92:67-84.
[78]Wysessiion M E.Large-scale structure at the core-mantle boundary from diffracted waves[J].Nature,1996,382:244- 248.
[79]Masters G,Johnson S,Laske G,et al.A shear-velocity model of the mantle[J],Phil.Trans.R.Soc.Lond.,A., 1996,354:1385-1411.
[80]Hung S H,Dahlen F A,Nolet G.Frechet kernels for finitefrequency traveltimes—Ⅱ.Examples[J].Geophys.J.Int., 2000,141:175-203.
[81]Hung S H,Dahlen F A,Nolet G.Wavefront healing:a banana-doughnut perspective[J].Geophys.J.Int.,2001, 146:289-312.
[82]Baig A M,Dahlen F A,Hung S H.Traveltimes of waves in three-dimensional random media[J].Geophys.J.Int., 2003,153:467-482.
[83]Baig A M,Dahlen F A.Statistics of traveltimes and amplitudes in random media[J].Geophys.J.Int.,2004,158:184-210.
[84]Boschi L,Becker T W,Soldati G,et al.On the relevance of Born theory in global seismic tomography.2006,33: L06302,doi:10.1029/2005GL025063.
[85]Zhao L,Jordan T H,Olsen K B,Chen P.Frechet kernels for imaging regional earth structure based on threedimensional reference models.Bull.Seism.Soc.Am., 2005,95:2066-2080.
[86]Tromp J,Tape C.Liu Q Y.Seismictomography,adjoint methods. time reversal and banana-doughnut kernels.Geophys.J. Int.,2005,160:195-216.
[87]Wielandt E.On the validity of the ray approximation for interpreting delay times[A].In:Nolet.G.,Seismic Tomography[C].Dordrecht.,Holland,D:Reidel Publishing Co.,1987,85-98.
[88]Nolet G.Seismic wave progation and seismic tomography[A]. In:Nolet,G.,Seismic Tomography[C].D.Reidel, Norwell,Mass,1987,1-23.
[89]Nolet G.Imaging the deep Earth:technical possibilities and theoretical limitations[A].In:Roca,A.,Procedings of the XXIIth Assembly ESC,Barcelona 1990[C].Barcelona: Generalitat di Catalunya,1992,107-115.
[90]Cerveny V,Soares J E P.Fresnel volume ray tracing[J]. Geophysics,1992,57:902-915.
[91]Jansky J,Kvasnica M,Duda S J.Discussion of P waves for global Earth models[J].Stud.Geophys.Geod.,1997,41: 130-148.
[92]Williamson P R.A guide to the limits of resolution imposed by scattering in ray tomography[J].Geophysics,1991,56: 202-207.
[93]Lormax A.the wavelength-smoothing method for approximating broadband wave propagation through complicated velocity structures[J].Geophys.J.Int.,1994,117:313-334.
[94]Lomax A.Path-summation waveforms[J].Geophys.J. Int.,1999,138:702-716.
[95]Snieder R,Lomax A.Wavefield smoothing and the effect of rough velocity perturbations on arrival times and amplitudes [J].Geophys.J.Int.,1996,125:796-812.
[96]Snieder R.The evolution of phase fronts and the method of strained coordinates[J].J.Acoust.Soc.Am.,1998,103: 3180-3183.
[97]Schlottmann R.b.A path integral formulation of acoustic wave propagation[J].Geophys.J.Int.1999,137:353- 363.
[98]Nolet G,Danlen F A.Wave front healing and the evolution of seismic delay times[J].J.Geophys.Res.,2000,105: 19043-19054.
[99]Yang H Y,Hung S H.Validation of ray and wave theoretical travel times in heterogeneous random media[J],Geophys. Res.Lett.,2005,32(20):L20302,doi:10.1029/ 2005GL023501.
[100]Hung S H,Shen Y,Chaio L Y.Imaging seismic velocity structure beneath the Iceland hot spot:a finite frequence approach[J].J.Geophys.Res.,2004,109,B08305,doi: 10.1029/2003JB002889.
[101]Gautier S,Nolet G,Virieux J.Finite-frequency tomography in a crustal environment:Application to the western part of the Gulf of Corith[J].Geophysical Prospeting,2008,56: 493-503.
[102]Dahlen F A.Resolution limit of traveltime tomography[J]. Geophys.J.Int.,2004,157:315-331.
[103]江燕.广义走时有限频层析成像[D].北京:北京大学, 2009. Jiang Y.Generalized travel-time finite-frequency tomography [D].Beijing:Peking University,2009.
[104]Yoshizawa K,Kennett B L N.Determination of the influence zone for surface wave paths[J].Geophys.J.Int.,2002, 149:440-453.
[105]Barmin M P,Ritzwoller M H,Levshin A L.A Fast and Reliable Method for Surface Wave Tomography[J].Pure Appl.Geophys.,2001,158:1351-1375.
[106]Ritzwoller M H,Shapiro N M,Barmin M P,et al.Global surface wave diffraction tomography[J].J.Geophys. Res.,2002,107,B12,2335,doi:10.1029/2002JB001777.
[107]Yoshizawa K,Kennett B L N.Multimode surface wave tomography for the Australian region using a three-stage approach incorporating finite frequency effects[J].J. Geophys.Res.,2004,109,B02310,doi:10.1029/ 2002JB002254.
[108]Zhou Y,Dahlen F A,Nolet G,et al.Finite-frequency effects in global surface-wave tomography[J].Geophys.J. Int.,2005,163:1087-1111.
[109]Zhou Y,Nolet G,Dahlen F A,et al.Global upper-mantle structure from finite-frequency surface-wave tomography [J].J.geophys.Res.,2006,111,B04304,doi:10.1029/ 2005JB003677.
[110]Peter D,boschi L,Deschamps F,et al.A new finite-frequency shear-velocity model of the European-Mediterranean region [J].Geophys.Res.Lett.,2008,35:L16315,doi:10. 1029/2008GL034769.
[111]de Jonge M R,Wortel M J R,Spakman W.Regional scale tectonic evolution and the seismic velocity structure of the lithosphere and upper mantle:the Mediterranean region[J]. J.Geophys.Res.,1994,99,120191-12108.
[112]Sieminski A,Liu Q Y,Trampert J,et al.Finite-frequency sensitivity of surface waves to anisotropy based upon adjoint methods.Geophys.J.Int.,2007,168:1153-1174.
[113]Trampert J,Spetzler J.Surface wave tomography:finite frequency effects lost in the null space[J].Geophys.J. Int.,2006,164:394-400.
[114]Peter D,Boschi L,Woodhouse J H.Tomographic resolution of ray and finite-frequency methods:a membrane-wave investigation[J].Geophys.J.Int.,2009,177,624-638.
[2]Foulger G R.Mantle plumes:Why the current skepticism?[J]. Chinese Science Bulletin,2005,50(15):1555-1560.
[3]Dahlen F A,Hung S H,Nolet G.Frechet kernels for finitefrequency traveltimes—Ⅰ.Theory[J].Geophys.J.Int., 2000,141:157-174.
[4]Zhao L,Jordan T H,Chaptman C H.Three-dimensional Frechet differential kernels for seismic delay time[J].Geophys.J. Int.,2000,141:558-576.
[5]徐小明,史大年,李信富.有限频层析成像方法研究进展.地球物理学进展,2009,24(2):432-438. Xu X M,Shi D N,Li X F.Research progress of the finitefrequency tomography method.Progress in Geophys.(in Chinese),2009,24(2).432-438.
[6]杨峰,黄金莉.有限频率地震层析成像方法及研究进展.地震,2009,29(4):52-62. Yang Feng & Huang Jin-li.Finte-frequency seismic tomography:methods and progreses.Earthquake,2009(4): 52-62.
[7]刘玉柱,董良国,李陪明,等,初至波菲涅尔体地震层析成像.地球物理学报,2009,52(9):2310-2320. Liu Y Z,Dong L G,Li P M.et al.Fresenl volume tomography based on the first arrival of the seismic wave, Chinese J.Geophys.(in Chinese),2009,52(9):2310- 2320.
[8]杨峰,黄金莉,杨挺.应用远震有限频率层析成像反演首都圈上地幔速度结构[J]地球物理学报,2010,53(8):1806- 1816. Yang F,Huang J L,Yang T.Upper mantle structure beneath the Chinese capital region from teleseismic finite-frequency tomography[J]Chinese Journal Geophysics.2010,53(8): 1806-1816.
[9]洪淑蕙,Biao Kuo,Qi Yuan Liu等.龙门山地区地壳及上地幔结构的应用多重尺度有限频宽走时层析成像[J].国际地震动态,2010,6:29-30. Shu-Huei Hung,Biao Kuo,Qi-Yuan Liu,et al.Multi-scale, finite-frequency travel-time tomography of the crust and upper mantle structure in the Longmenshan region.Recent Developments in World Seismology,2010.6:29—30.
[10]万柯松,倪四道,赵里.龙门山周边地区地震波速度结构的有限频率反演,国际地震动态,2010,6:16. Wan Kesong,Ni Sidao,Zhao Li.Finite frequency waveform inversion for velocity structure in Longmenshan area Recent Developments in World Seismology,2010,6:16.
[11]鲁来玉,丁志峰,何正勤.浅层有限频率面波成像中的3D灵敏度核分析[J].地球物理学报,2011,54(1):55-66. Lu L Y,Ding Z F,He Z Q.Analysis of 3D sensitivity kernels of the finite frequency surface wave tomography in shallow subsurface.Chinese J.Geophys.(in Chinese),2011, 54(1):55-66.
[12]Zhou Y.Surface-wave sensitivity to 3-D anelasticity.Geophys. J.Int.,2009,178:1403-1410.
[13]Tian Y,Sigloch K,Nolet G.Multiple-frequency SH-wave tomography of the western US upper mantle.Geophys.J. Int.,2009,178:1384-1402.
[14]Fichtner A,Kennett B L N,Igel H.et al.Full seismic waveform tomography for upper-mantle structure in the Australasian region using adjoint methods.Geophys.J. Int.,2009,179:1703-1725.
[15]Morency C,Luo Y,Tromp J.Finite-frequency kernels for wave propagation in porous media based upon adjoint methods.Geophys.J.Int.,2009,179:1148-1168.
[16]Sieminski A,Trampert J,Tromp J.Principal component analysis of anisotropic finite-frequency sensitivity kernels. Geophys.J.Int.,2009,179:1186-1198.
[17]Stich D,Danecek P.MorelliA,et al.Imaging lateral heterogeneity in the northern Apennines from time reversal of reflected surface waves.Geophys.J.Int.,2009,177:543- 554.
[18]Tape C,Liu Q Y,Maggi A,et al.Adjoint tomography of the southern California crust.Science,2009,325:988- 992.
[19]Zhu H J,Luo Y,Nissen-Meyer T,et al.Elastic imaging and time-lapse migration based on adjoint methods.Geophysics, 2009,74,No.6:WCA167-WCA177.
[20]To A,Romanowicz B.Finite frequency effects on global S diffracted traveltimes.Geophys.J.Int.2009,179:1645- 1657.
[21]Yang T,Grand S P,Wilson D.Seismic structure beneath the Rivera subduction zone from finite-frequency seismic tomography.J.Geophys.Res.,2009,114,B01302,doi: 10.1029/2008JB005830.
[22]Liu Y Z,Dong L G,Wang Y W,et al.Sensitivity kernels for seismic Fresnel volume tomography.Geophysics,2009, 74,No.5:U35-U46.
[23]Hung S H,Chen W P,Chiao L Y,et al.First multi-scale, finite-frequency tomography illuminates 3-D anatomy of the Tibetan Plateau.Geophys.Res.Lett.,2010,37,L06304, doi:10.1029/2009GL041875.
[24]Fichtner A,Kennett B L N,Igel H,et al.Full waveform tomography for radially anisotropic structure:New insights into present and past states of the Australasian upper mantle. Earth Planet.Sci.Lett.2010,290:270-280.
[25]Tape C,Liu Q Y,Maggi A,et al.Seismic tomography of the southern California crust based on spettral-element and adjoint methods.Geophys.J.Int.,2010,180:433-462.
[26]Lin F C,Ritzwoller M H.Empirically determined finite frequency sensitivity kernels for surface waves.Geophys.J. Int.,2010,182:923-932.
[27]Bezada M J,Levander A,Schmandr B.Subduction in the southern Caribbean:Images from finite-frequency P wave tomography.J.Geophys.Res.,2010,115,B12333,doi: 10.1029/2010JB007682.
[28]Leeuwen T,van & Mulder W A.A correlation-based misfit criterion for wave-equation traveltime tomography.Geophys. J.Int.,2010,182:1383-1394.
[29]Lin F C,Ritzwoller M H.empirically determined finite frequency sensitivity kernels for surface waves.Geophys.J. Int.,2010,182:923-932.
[30]Liang X F,Shen Y,Chen J Y,et al.Crustal and mantle velocity models of southern Tibet from finite frequency tomography.J.Geophys.Res.,2011,116,B02408,doi: 10.1029/2009JB007159.
[31]Aki K,Richards P G.Quantitative seismology theory and methods[M],U.S.A.;W.H.Freeman and Company, 1980,728-751.
[32]Devaney A J,Zhang D.Geophysical diffraction tomography in a layed background[J].Wave Motion,1991,14:243- 265.
[33]Bleistein N,Xohwn J K,Hagin F G.2-1/2 dimensional Born inversion with an arbitrary reference[J].Geophysics,1987, 52:26-36.
[34]Wu R S,Araujo F V.Multi-frequency backscattering tomography (MFBT) for boundary scattering and for volume scattering [A].In:Brazilian Geophysical Society,2~(nd) Intern.Congress of the Brazilian Geophysical Society,Expanded Abstracts [C].Brazil:1991,821-825.
[35]Langenberg K J,Kreutter T.Holographic imaging with elastic waves[A].In:edited by Berkhout et al.,Acoustic Imaging[C].New York:Plenum Press,1985,14.
[36]Gelius L,Johansen J I,Ponnheim N S,et al.A generalized diffraction tomography algorithm[J].J.Acoust.Soc.Am., 1991,89:523-528.
[37]Woodward M.Wave equation tomography[J].Geophysics, 1992,57:15-26.
[38]Luo Y,Schuster G T.Wave-equation traveltime inversion [J].Geophysics,1991,56:645-653.
[39]Luo Y,Schuster G T.Wave equation inversion of skeletalized geophysical data[J].Geophys.J.Int.,1991,105:289- 294.
[40]Vasco D W,Majer E L.Wavepath travel-time tomography [J].Geophys.J.Int.,1993,115:1055-1069.
[41]Yomogida K,Aki K.Amplitude and phase data inversion for phase velocity anomalies in the Pacific Ocean basin[J]. Geophys.J.R.astr.Soc.,1987,88:161-204.
[42]Yomogida K.Fresnel zone inversion for latereal heterogeneities in the Earth.Pure Appl.Geophys[J].,1992,138:391-406.
[43]Tanimoto T.Modelling curved surface wave paths:membrane surface wave synthetics[J].Geophys.J.Int.,1990,102: 89-100.
[44]Tromp J,Dahlen F A.Variational principles for surface wave propagation on a laterally heterogeneous Earth-Ⅲ.Potential representation[J].Geophys.J.Int.,1993,112:195-209.
[45]Li X D,Giardini D,Woodhouse J H.Large-scale 3-dimensional even-degree structure of the earth from splitting of long-period normal-modes[J],J.Geophys.Res.,1991,96:551-577.
[46]Widmer R,Masters G,Gilbert F.Spherically symmetrical attenuation within the earth from normal mode data[J]. Geophys.J.Int.,1991,104:541-553.
[47]Li X D,Tanimoto T.Waveforms of long-period body waves in a slightly aspherical Earth model[J].Geophys.J.Int., 1993,112:92-102.
[48]Tanimoto T.Formalish for traveltime inversion with finite frequency effects.Geophys.J.Int[J].1995,121:103- 110.
[49]Marquering H,Snieder R.Surface-wave mode coupling for efficient forward modeling and inversion of body-wave phases [J].Geophys.J.Int.,1995,120:186-208.
[50]Marquering H,Snieder R,Nolet G.Waveform inversions and the significance of surface-wave mode coupling[J]. Geophys.J.Int.,1996,124:258-278.
[51]Li X D,Romanowicz B.Comparison of global waveform inversions with and without considering cross-branch modal coupling[J].Geophys.J.Int.,1995,121:695-709.
[52]Li X D,Romanowicz B.Global mantle shear-velocity model developed using nonlinear asymptotic coupling theory.J. Geophys.Res.,1996,101:22245-22272.
[53]Snieder R.3-D linearized scattering of surface waves and a formalism for surface wave holography[J].Geophys.J.R. astr.Soc.,1986,84:581-605.
[54]Snieder R,Nolet G.Linearized scattering of surface waves on a spherical Earth[J].J.Geophys.,1987,61:55-63.
[55]Meier T,Lebedev S,Nolet G,Dahlen F A.Diffraction tomography using multimode surface waves[J].J.Geophys. Res.,1997,102:8255-8267.
[56]Marquering H,Nolet G,Dahlen F A.Three-dimensional waveform sensitivity kernels[J].Geophys.J.Int.,1998, 132:521-534.
[57]Zhao L,Jordan T H.Sensitivity of frequency-dependent traveltimes to laterally heterogeneous,anisotropic Earth structured].Geophys.J.Int.,1998,133:683-704.
[58]Katzman R,Zhao L,Jordan T H.High-resolution,twodimensional vertical tomography of the central Pacific mantle using ScS reverberations and frequency-dependent travel times[J].J.Geophys.Res.,1998,103:17933-17971.
[59]Tong J,Dahlen F A,Nolet G,et al.Diffraction effects upon finte-frequency travel times:a simple 2-D example[J]. Geophys.Res.Lett.,1998,25(11):1983-1986.
[60]Marquering H,Dahlen F A,Nolet G.Three-dimensional sensitivity kernels for finite-frequency traveltimes:the banana-doughnut paradox[J].Geophys.J.Int.,1999,137: 805-815.
[61]Montelli R,Nolet G,Masters G,et al.Global P and PP traveltime tomography:rays versus waves[J].Geophys.J. Int.,2004,158:637-654.
[62]Montelli R,Nolet G,Dahlen F A,Masters G,etal.Finitefrequency tomography reveals a variety of plumes in the mantle[J].Science,2004,303:338-343.
[63]de Hoop,M.V.& Van der Hilst,R.D.On sensitivity kernels for 'wave-equation' transmission tomography[J]. Geophys.J.Int.,2005,160:621-633.
[64]de Hoop,M.V.& Van der Hilst,R.D.Reply to comment by F.A.Dahlen and G.Nolet on'On sensitivity kernels for 'wave-equation' transmission tomography'[J].Geophys. J.Int.,2005,163:952-955.
[65]Van der Hilst,R.D.& de Hoop,M.V.Banana-doughnut kernels and mantle tomography[J].Geophys.J.Int.,2005, 163:956-961.
[66]Van der Hilst,R.D.& de Hoop,M.V.Reply to comment by R.Montelli,G.Nolet and F.A.Dahlen on 'Bananadoughnut kernels and mantle tomography'[J].Geophys.J. Int.,2006,167:1211-1214.
[67]Dahlen,F.A.& Nolet G.Comment on 'On sensitivity kernels for 'wave-equation' transmission tomography' by de Hoop and van der Hilst[J].Geophys.J.Int.,2005,163: 949-951.
[68]Montelli R,Nolet G,Dahlen F A.Comment on 'Bananadoughnut kernels and mantle tomography' by van der Hilst and de Hoop.Geophys[J].J.Int.,2006,167:1204- 1210.
[69]Robinson E A,Treitel S.Geophysical Signal Analysis[M]. U.S.A.:PrenticeHall,Englewood Cliffs,New Jersey, 1980.
[70]Dziewonsk F,Bloch S,Landisman M.A technique for the analysis of transient seismic signals[J].Bull.Seism.Soc. Am.1969,59:417-444.
[71]StokoeK H II,Nazarian S.Effectiveness of ground improvement from spectral analysis of surface waves[A].In: Proc.8~(th) Euro Conf On Soil Mech and Found Eng.,1983.
[72]VanDecar J,Crosson R.Determination of teleseismic relative phase arrival times using multi-channel cross-correlation and least squares[J].Bull.Seism.Soc.Am.1991,80:150—159.
[73]Su W J,Dziewonski A M.Predominance of long wavelength heterogeneity in the mantle[J].Nature,1991,352:121- 126.
[74]Woodward R L,Masters G.Upper mantle structure from long-period differential traveltimes and free oscillation data [J].Geophys.J.Int.,1992,109:275-293.
[75]Zhang Y S,Tanimoto T.High-resolution global upper mantle structure and plate tectonics[J].J.Geophys.Res.,1993, 98:9793-9823.
[76]Grand S P.Mantle shear structure beneath the Americas and surrounding oceans[J].J.Geophys.Res.,1994,99:11591- 11621.
[77]Wysession M E,Valenzuela R W,Zhu A N,et al. Investiagting the base of the mantle using differential travels times[J].Phys.Earth Planet.Int.,1995,92:67-84.
[78]Wysessiion M E.Large-scale structure at the core-mantle boundary from diffracted waves[J].Nature,1996,382:244- 248.
[79]Masters G,Johnson S,Laske G,et al.A shear-velocity model of the mantle[J],Phil.Trans.R.Soc.Lond.,A., 1996,354:1385-1411.
[80]Hung S H,Dahlen F A,Nolet G.Frechet kernels for finitefrequency traveltimes—Ⅱ.Examples[J].Geophys.J.Int., 2000,141:175-203.
[81]Hung S H,Dahlen F A,Nolet G.Wavefront healing:a banana-doughnut perspective[J].Geophys.J.Int.,2001, 146:289-312.
[82]Baig A M,Dahlen F A,Hung S H.Traveltimes of waves in three-dimensional random media[J].Geophys.J.Int., 2003,153:467-482.
[83]Baig A M,Dahlen F A.Statistics of traveltimes and amplitudes in random media[J].Geophys.J.Int.,2004,158:184-210.
[84]Boschi L,Becker T W,Soldati G,et al.On the relevance of Born theory in global seismic tomography.2006,33: L06302,doi:10.1029/2005GL025063.
[85]Zhao L,Jordan T H,Olsen K B,Chen P.Frechet kernels for imaging regional earth structure based on threedimensional reference models.Bull.Seism.Soc.Am., 2005,95:2066-2080.
[86]Tromp J,Tape C.Liu Q Y.Seismictomography,adjoint methods. time reversal and banana-doughnut kernels.Geophys.J. Int.,2005,160:195-216.
[87]Wielandt E.On the validity of the ray approximation for interpreting delay times[A].In:Nolet.G.,Seismic Tomography[C].Dordrecht.,Holland,D:Reidel Publishing Co.,1987,85-98.
[88]Nolet G.Seismic wave progation and seismic tomography[A]. In:Nolet,G.,Seismic Tomography[C].D.Reidel, Norwell,Mass,1987,1-23.
[89]Nolet G.Imaging the deep Earth:technical possibilities and theoretical limitations[A].In:Roca,A.,Procedings of the XXIIth Assembly ESC,Barcelona 1990[C].Barcelona: Generalitat di Catalunya,1992,107-115.
[90]Cerveny V,Soares J E P.Fresnel volume ray tracing[J]. Geophysics,1992,57:902-915.
[91]Jansky J,Kvasnica M,Duda S J.Discussion of P waves for global Earth models[J].Stud.Geophys.Geod.,1997,41: 130-148.
[92]Williamson P R.A guide to the limits of resolution imposed by scattering in ray tomography[J].Geophysics,1991,56: 202-207.
[93]Lormax A.the wavelength-smoothing method for approximating broadband wave propagation through complicated velocity structures[J].Geophys.J.Int.,1994,117:313-334.
[94]Lomax A.Path-summation waveforms[J].Geophys.J. Int.,1999,138:702-716.
[95]Snieder R,Lomax A.Wavefield smoothing and the effect of rough velocity perturbations on arrival times and amplitudes [J].Geophys.J.Int.,1996,125:796-812.
[96]Snieder R.The evolution of phase fronts and the method of strained coordinates[J].J.Acoust.Soc.Am.,1998,103: 3180-3183.
[97]Schlottmann R.b.A path integral formulation of acoustic wave propagation[J].Geophys.J.Int.1999,137:353- 363.
[98]Nolet G,Danlen F A.Wave front healing and the evolution of seismic delay times[J].J.Geophys.Res.,2000,105: 19043-19054.
[99]Yang H Y,Hung S H.Validation of ray and wave theoretical travel times in heterogeneous random media[J],Geophys. Res.Lett.,2005,32(20):L20302,doi:10.1029/ 2005GL023501.
[100]Hung S H,Shen Y,Chaio L Y.Imaging seismic velocity structure beneath the Iceland hot spot:a finite frequence approach[J].J.Geophys.Res.,2004,109,B08305,doi: 10.1029/2003JB002889.
[101]Gautier S,Nolet G,Virieux J.Finite-frequency tomography in a crustal environment:Application to the western part of the Gulf of Corith[J].Geophysical Prospeting,2008,56: 493-503.
[102]Dahlen F A.Resolution limit of traveltime tomography[J]. Geophys.J.Int.,2004,157:315-331.
[103]江燕.广义走时有限频层析成像[D].北京:北京大学, 2009. Jiang Y.Generalized travel-time finite-frequency tomography [D].Beijing:Peking University,2009.
[104]Yoshizawa K,Kennett B L N.Determination of the influence zone for surface wave paths[J].Geophys.J.Int.,2002, 149:440-453.
[105]Barmin M P,Ritzwoller M H,Levshin A L.A Fast and Reliable Method for Surface Wave Tomography[J].Pure Appl.Geophys.,2001,158:1351-1375.
[106]Ritzwoller M H,Shapiro N M,Barmin M P,et al.Global surface wave diffraction tomography[J].J.Geophys. Res.,2002,107,B12,2335,doi:10.1029/2002JB001777.
[107]Yoshizawa K,Kennett B L N.Multimode surface wave tomography for the Australian region using a three-stage approach incorporating finite frequency effects[J].J. Geophys.Res.,2004,109,B02310,doi:10.1029/ 2002JB002254.
[108]Zhou Y,Dahlen F A,Nolet G,et al.Finite-frequency effects in global surface-wave tomography[J].Geophys.J. Int.,2005,163:1087-1111.
[109]Zhou Y,Nolet G,Dahlen F A,et al.Global upper-mantle structure from finite-frequency surface-wave tomography [J].J.geophys.Res.,2006,111,B04304,doi:10.1029/ 2005JB003677.
[110]Peter D,boschi L,Deschamps F,et al.A new finite-frequency shear-velocity model of the European-Mediterranean region [J].Geophys.Res.Lett.,2008,35:L16315,doi:10. 1029/2008GL034769.
[111]de Jonge M R,Wortel M J R,Spakman W.Regional scale tectonic evolution and the seismic velocity structure of the lithosphere and upper mantle:the Mediterranean region[J]. J.Geophys.Res.,1994,99,120191-12108.
[112]Sieminski A,Liu Q Y,Trampert J,et al.Finite-frequency sensitivity of surface waves to anisotropy based upon adjoint methods.Geophys.J.Int.,2007,168:1153-1174.
[113]Trampert J,Spetzler J.Surface wave tomography:finite frequency effects lost in the null space[J].Geophys.J. Int.,2006,164:394-400.
[114]Peter D,Boschi L,Woodhouse J H.Tomographic resolution of ray and finite-frequency methods:a membrane-wave investigation[J].Geophys.J.Int.,2009,177,624-638.
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