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《地球物理学进展》2017,(6)
P波接收函数通过分离间断面上产生的P-to-S转换波来测量间断面的深度,由于地壳多次相的干扰,导致这一方法用于测岩石圈—软流圈界面(LAB)受到了很大的限制.不过,S波接收函数可以克服这一问题,因为它分离S-to-P转换相,而这一转换相比入射S波提前到达台站,于是避开了迟到的地壳S波振荡相.然而,由于S波的频率比P波低,这将导致S波接收函数的分辨率较P波接收函数的低.为了作对比分析,本文利用云南地区13个固定台站记录的远震三分量资料,分离出台站下方的P、S波接收函数,而且这些接收函数被校正到67°的参考震中距处,以便进行叠加增强信噪比.最后将时间域的叠加信号转换到深度域,分别获取台站下方的地壳和岩石圈的厚度.结果表明:P波接收函数得到的地壳厚度在32~56 km之间,S波接收函数得到的地壳厚度在41~54 km之间,S波接收函数得到地壳厚度系统地偏大8~9 km;P波接收函数得到的LAB深度在65~110 km之间,S波接收函数得到的LAB深度在66~135 km之间,S波接收函数得到的LAB深度偏大15~20 km,最大偏差达到了25 km. 相似文献
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从远震体波波形数据中提取的P波接收函数和S波接收函数已经成为研究台站下方地壳上地幔速度间断面的最有效的方法之一.P波接收函数已经被广泛应用于获取地壳内部S波速度结构、地壳厚度及物质成分组成、地幔过渡带的厚度变化以及岩石圈地幔的间断面等,而S波接收函数是P波接收函数的一个很好的补充,因为在Moho和地幔过渡带之间的深度范围内,Sp转换波比来自浅部间断面的多次波到达早,而在P波接收函数中,相同深度范围的间断面的Ps转换波往往被来自浅部间断面的多次波干扰或者淹没,因此S波接收函数是目前获取岩石圈地幔深度范围内速度间断面结构(如Moho和LAB)的比较有效的方法,比面波观测具有更高的分辨率.本文详细阐述了P波接收函数和S波接收函数的方法原理以及在地壳上地幔速度间断面的研究中所采用的研究思路. 相似文献
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接收函数方法及研究进展 总被引:8,自引:4,他引:8
远震P波波形数据中包含了大量在台站下方地壳上地幔速度间断面所产生的P-S转换波及其多次反射波的信息,是研究台站下方局部区域S速度分布理想的震相,由此产生的接收函数方法是反演台站下方S波速度结构的有效手段。接收函数方法可以通过波形反演拟合接收函数的径向分量,对观测台站下方地球介质的S波速度结构进行估计,也可以通过偏移叠加获得的接收函数道集(地震剖面图)追踪速度间断面。这种方法避免了对天然地震震源及其附近结构混响效应等复杂因素的影响,对S波速度的垂向分布敏感,垂向分辨率高。由于宽频带流动地震台阵的发展,用此方法还可获得研究区域速度结构的横向变化,横向分辨能力主要取决于台站的间距。本文回顾20年来接收函数研究的进展,探讨了方法研究的发展趋势,介绍了对地壳-上地幔结构的部分研究结果。 相似文献
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接收函数方法被广泛地应用于地壳上地幔结构的研究中,H-κ叠加方法是其中最常用的方法之一.对于布设在基岩区台站计算的接收函数,H-κ叠加方法可以准确地估计台站下方地壳厚度和平均波速比,但是对于沉积盆地地区计算的接收函数,由于低速沉积层内会产生多次波混响,干扰甚至覆盖接收函数中莫霍面的转换波和多次波震相,从而影响H-κ叠加结果的准确性.为准确估计沉积盆地地区地壳结构,本文提出使用预测反褶积方法去除接收函数中低速沉积层内多次波混响,其中预测步长由接收函数归一化自相关函数获得,物理意义为沉积层内S波双程走时.合成接收函数和实测接收函数试验表明,本文提出的预测反褶积方法可以有效地去除沉积层多次波混响,并结合改进的H-κ叠加方法可以准确地估计沉积层下覆地壳厚度和平均波速比.相比于其他去除接收函数多次波混响的方法,本文提出的预测反褶积方法具有参数设定简单、运算量小、震相幅值较大等特点,适用于大批量数据处理. 相似文献
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正自从Langston提出接收函数以来,随着地震观测台网越来越密集,利用地震台阵观测研究构造带下方速度结构取得了重要进展,很多学者利用接收函数研究地壳上地幔速度结构。虽然P波接收函数可以获得地壳上地幔结构,但由于莫霍面和壳内间断面多次反射震相的干扰,单纯考虑Ps转换震相难以精确地确定岩石圈边界。Farra和Vinnik利用类似提取P波接收函数的方法得到Sp转换震相的S波接收函数。相比P波接收函数,由于S波接收函数不受间断面多次反射震相的干扰,因而在岩石圈—软 相似文献
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远震P波接收函数是探测壳幔结构的有效方法,它采用平面波入射假定,将入射波视为具有相同射线参数的单一震相.然而,在一定震中距时,核幔边界反射P波(如PcP震相)会进入接收函数提取窗口,其射线参数与直达P波相差较大,可能导致提取的接收函数存在偏差.本文理论测试了不同震源机制,震中距以及震源深度等情况下核幔边界反射P波对远震P波接收函数的影响,并结合实际观测资料进行对比分析.测试结果显示,与走滑断层产生的PcP震相对接收函数影响较小不同,倾滑断层产生的PcP震相会使接收函数出现虚假震相并降低直达P波及后续震相的振幅,从而干扰壳幔间断面(如410 km和660 km间断面)的识别,并导致反演的台站下方S波速度降低达到5%.进一步分析倾滑型地震对接收函数波形影响发现,当震源深度小于300 km时,PcP震相导致接收函数直达P波振幅要低于4%.在震源深度在300~450 km、震中距为50°~60°、断层倾角在大约30°~60°,以及震源深度大于450 km、震中距为50°~60°、断层倾角大约25°~65°情况下影响可达20%.接收函数叠加方法可以有效压制结果中PcP震相导致的虚假信号,但是仍然无法完全去除PcP对接收函数振幅的影响,叠加后直达P波振幅降低仍然能够达到4%.本文结果表明,在计算接收函数时,剔除掉产生较强PcP的特定震源机制、震中距和震源深度的地震事件有助于反演精确的壳幔结构. 相似文献
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S波接收函数对于研究岩石圈速度结构具有重要价值. 本文利用合成地震图技术研究了S波接收函数的动力学特征. 在接收函数非线性复谱比反演方法的基础上,发展了基于贝叶斯理论的P波和S波接收函数的非线性联合反演方法. 结果表明:(1)适用于S波接收函数反演的震中距范围约为55°~80°,S波接收函数反演要求所用远震事件的震级大于5级; (2)与陡变的岩石圈底部界面(LAB)相比,梯度带类型LAB上生成的SLP转换波相对较弱,台站下方的沉积盖层有助于相对增强SLP震相; (3)由于S波接收函数径向分量不符合δ脉冲,不依赖于等效震源假定的三分量接收函数多道最大或然性反褶积方法更适合S波接收函数的估计;(4)数值检验的结果表明,在初始模型速度参数偏离真实模型20%的情况下,本文的方法能够预测300 km深度范围内的P波和S波速度结构;(5)观测数据的反演结果表明,由于P波接收函数低频分量相对不足,本文的联合反演方法对于大于100 km深度上地幔的S波速度结构约束相对较弱. 相似文献
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本文将地震反射资料成像的Kirchhoff偏移方法引入到接收函数成像研究,提出了一种接收函数的Kirchhoff偏移方法,以适应介质速度的横向变化,提高接收函数成像的精度和分辨率. 模型检验表明,与传统的水平分层的共转换点偏移叠加方法相比,Kirchhoff偏移方法能够实现转换波的有效归位,消除水平分层共转换点偏移叠加造成的假象. 一个很重要的现象是,倾斜或弯曲界面的成像明显受控于远震的入射方向,其成像精度的提高有赖于不同方向接收函数的联合成像. 相似文献
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The receiver function(RF) technique is an effective method for studying crustal structure. For a single station, the average 1-D crustal structure is usually derived by stacking the radial RFs from all back-azimuths, whereas structural variations(such as dipping discontinuities or anisotropy) can be constrained through analysis of waveform dependence on the backazimuth of both the radial and tangential RFs. However, it is often difficult to directly extract information about structural variations from the waveform of RF, due to the common presence of noise in real data. In this study, we proposed a new method to derive structural variation information for individual stations by applying principal component analysis(PCA) to RFs sorted by back-azimuth. In this method(termed as RF-PCA), a set of principal components(PCs), which are uncorrelated with each other and reflect different characteristics of the RF data, were extracted and utilized separately to reconstruct new RFs. Synthetic tests show that the first PC of the radial RFs contains the average structural information of the crust beneath the corresponding station, and the second PC of the radial RFs and the first PC of the tangential RFs both reflect the variations of the crustal structure. Our synthetic modeling results indicate that the new RF-PCA method is valid for a variety of synthetic models with intra-crustal dipping discontinuities and/or anisotropy. We applied this method to the real data from a broadband temporary seismic station(s233) in the central part of the Sichuan Basin. The results suggest that the RF data can be best explained by the presence of two nearly parallel dipping discontinuities within the crust. Combining with previous logging data, seismic exploration and deep sounding observations, we interpret the shallow dipping discontinuity as the top boundary of the Precambrian crystalline basement of the Sichuan Basin and the deep one corresponding to the Conrad interface between the upper and lower crust, consistent with the geological feature of the study area. In this work, both synthetic tests and real data application results demonstrate the effectiveness of the RF-PCA method for studying crustal structures. 相似文献
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利用远震接收函数偏移成像方法获得青藏高原西部Hi-Climb项目剖面北段地壳结构转换波成像。结果显示班公-怒江缝合带下方拉萨地体上地壳向N仰冲,下地壳向N俯冲,而羌塘地块上地壳向S仰冲,下地壳向S俯冲,可能意味着青藏高原西部拉萨地块和羌塘地块具有复杂的拼合过程。结合前人的岩石学研究成果,建立了新特提斯北洋盆洋壳S向俯冲、距今60~50Ma印度板块与欧亚板块碰撞后,拉萨地块的下地壳向羌塘地块下俯冲,而后印度板块俯冲到羌塘地块下方的地块拼合模式 相似文献
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Mantle structure from inter-station Rayleigh wave dispersion and its tectonic implication in western China and neighboring regions 总被引:1,自引:0,他引:1
We processed more than 3000 inter-station great circle paths to determine the phase velocity for the fundamental mode of Rayleigh wave, and finally arrived at 110 paths of high quality dispersion data, which show good spatial coverage in western China and neighboring regions. Rayleigh wave phase velocity dispersion model WChina1D was obtained and compared with previous global and regional models. Phase velocity maps from 15 to 120 s were inverted and the maps of 20, 40, 80, and 120 s are presented in this paper. Checkerboard tests show the average lateral resolution in our area of interest is about 7°. Our tomographic results corroborate a prominent low-velocity anomaly lying mainly in the lower crust and uppermost mantle in the Chang Thang terrane. The apparent low-velocity anomaly also appears in the wide area of northeastern Tibet in the crust and upper mantle. The low-velocity area around southeastern Tibet may be created by the southeastern migration of the low-velocity mass of the Tibetan plateau. The eastern Tarim shows structure with higher velocities relative to that of central Tarim. A large-scale low-velocity anomaly is clearly seen in central and western Mongolia. Our high quality measurements were also used to evaluate the CUB global shear velocity model [Shapiro, N., Ritzwoller, M., 2002. Monte-Carlo inversion for a global shear-velocity model of the crust and upper mantle. Geophys. J. Int. 151, 88-105] of the crust and upper mantle. The 40 s Rayleigh phase velocity map predicted from CUB model shows an apparent discrepancy with our measurements in western China and western Mongolia, which implies a higher estimated (about +1-2%) phase velocity model in these regions, probably due to the Gaussian smoothing condition in their tomography inversion. 相似文献
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We add new modules for receiver function (RF) analysis in SplitLab toolbox, which includes the manual RF analysis module, automatic RF analysis and related quality control modules, and H-k stacking module. The updated toolbox (named SplitRFLab toolbox), especially its automatic RF analysis module, could calculate the RFs quickly and efficiently, which is very useful in RF analysis with huge amount of seismic data. China is now conducting the ChinArray project that plans to deploy thousands of portable stations across Chinese mainland. Our SplitRFLab toolbox may obtain reliable RF results quickly at the first time, which provide essentially new constraint to the crustal and mantle structures. 相似文献
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Teleseismic receiver function using stacking and smoothing of multi seismic-records at a single station 
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下载免费PDF全文 Receiver functions (RFs) obtained using teleseismic wave records at a seismic station and synthetic seismograms indicate that RF with a single teleseismic wave record is related to the selection of record section and to the calculating parameters of the RF. The scatter noise contained in the seismogram also affects the quality of RF. A new method for calculating receiver function, stacking and smoothing multi-seismic records in a single station, is presented in this paper. The RF results using some records and some synthetic seismograms with different noises indicate prominent mantle discontinuity and thus prove that the method is effective and satisfied. 相似文献
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背景噪声层析成像技术已被广泛应用于地壳和上地幔速度结构的研究,这种方法不依靠地震的发生和人工源爆破,只需记录连续的噪声信号而无需产生信号,因为噪声穿过地下介质时会携带信息,然后通过利用台站记录到的连续背景噪声数据进行互相关计算和叠加,即可得到台站间的经验格林函数,从而获取对地下结构的认识。这种方法已经很好地应用于中国的东北地区、华北克拉通、青藏高原以及华南地区,并成功地揭示了这些地区地壳与上地幔顶部的速度结构。此外近年来,一些学者还利用噪声互相关技术研究地下介质地震波速度随时间的变化,通过对汶川大地震前后连续噪声记录的研究发现,大震发生后呈现同震波速降低和震后波速逐渐恢复的特点,这表明可以通过观测地震波特性的变化来监测地下应力的变化,从而为大震的预测预防工作提供科学依据。本文主要综述了近些年来背景噪声技术及其在中国大陆地区的应用。 相似文献
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利用2002~2003年中国地震局地质研究所台阵实验室以唐山大震区为中心布设的40个流动宽频带地震台站和首都圈数字台网的33个宽频带台站的远震数据,采用接收函数非线性反演方法得到其中72个宽频带台站下方60 km深度范围内的S波速度结构.根据得到的各台站下方地壳上地幔的S波速度结构,并综合刘启元等(1997)用接收函数非线性反演方法得到的延怀盆地15个宽频带流动台站下方的地壳上地幔S波速度结构模型,给出了39°N~41°N,114°E~119.5°E区域内沿不同走向、不同深度S波速度分布.由于综合了利用首都圈数字地震台网的宽频带台站以及流动地震台阵的观测数据,本文给出了较前人同类研究空间分辨率更好的结果.结果表明: (1)研究区的速度结构,特别是怀来以东的速度结构十分复杂.在10~20 km深度范围内,研究区地壳具有高速和低速异常块体的交错结构.研究区中上地壳速度结构主要被与张渤地震带大体重合的NW向高速条带和穿越唐山大震区的NE向高速条带所控制,而其中下地壳的速度结构主要为延怀—三河—唐山地区上地幔隆起所控制.(2)研究区内存在若干壳内S波低速体,它们主要分布在唐山,三河及延怀盆地等地区.在这些地区,壳内低速体伴随着壳幔界面的隆起和上地幔顶部速度结构的横向变化.(3)地表断层分布与地壳速度结构分区有较好的相关性,表明断层对不同块体有明显的控制作用.其中,宝坻断裂,香河断裂和唐山断裂均为超壳断裂.(4)首都圈内大地震的分布与壳内低速体及上地幔顶部的速度结构有密切关系.对于唐山大地震的成因,仅考虑板块作用引起的水平应力场是不够的,有必要充分重视由于上地幔变形引起的地壳垂直变形和上地幔物质侵入造成的热效应. 相似文献
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YongHong Duan FuYun Wang XianKang Zhang JiYan Lin Zhi Liu BaoFeng Liu ZhuoXin Yang WenBin Guo YunHao Wei 《中国科学:地球科学(英文版)》2016,59(7):1477-1488
Lithosphere thinning and destruction in the middle-eastern North China Craton (NCC), a region susceptible to strong earthquakes, is one of the research hotspots in solid earth science. All 42 seismic wide-angle reflection/refraction profiles have been completed in the middle-eastern NCC. We collect all the 2-D profiling results and perform gridding of the velocity and interface depth data, building a 3-D crustal velocity structure model for the middle-eastern NCC, named HBCrust1.0, by using the Kriging interpolation method. Our result shows that the first-arrival times calculated by HBCust1.0 fit well with the observations. The result demonstrates that the upper crust is the main seismogenic layer, and the brittle-ductile transition occurs at depths near interface C (the interface between upper and lower crust). The depth of interface Moho varies beneath the source area of the Tangshan earthquake, and a low-velocity structure is found to extend from the source area to the lower crust. Based on these observations, it can be inferred that stress accumulation responsible for the Tangshan earthquake may have been closely related to the migration and deformation of the mantle materials. Comparisons of the average velocities of the whole crust, the upper and the lower crust show that the average velocity of the lower crust under the central part of the North China Basin (NCB) in the east of the craton is obviously higher than the regional average. This high-velocity probably results from long-term underplating of the mantle magma. 相似文献
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Shear velocity structure of crust and uppermost mantle in China from surface wave tomography using ambient noise and earthquake data 总被引:1,自引:0,他引:1
We present a 3D model of shear velocity of crust and upper mantle in China and surrounding regions from surface wave tomography.We combine dispersion measurements from ambient noise correlation and traditional earthquake data.The stations include the China National Seismic Network,global networks,and all the available PASSCAL stations in the region over the years.The combined data sets provide excellent data coverage of the region for surface wave measurements from 8 to 120 s,which are used to invert for 3D shear wave velocity structure of the crust and upper mantle down to about150 km.We also derive new models of the study region for crustal thickness and averaged S velocities for upper,mid,and lower crust and the uppermost mantle.The models provide a fundamental data set for understanding continental dynamics and evolution.The tomography results reveal significant features of crust and upper mantle structure,including major basins,Moho depth variation,mantle velocity contrast between eastern and western North China Craton,widespread low-velocity zone in midcrust in much of the Tibetan Plateau,and clear velocity contrasts of the mantle lithosphere between north and southern Tibet with significant E–W variations.The low velocity structure in the upper mantle under north and eastern TP correlates with surface geological boundaries.A patch of high velocity anomaly is found under the eastern part of the TP,which may indicate intact mantle lithosphere.Mantle lithosphere shows striking systematic change from the western to eastern North China Craton.The Tanlu Fault appears to be a major lithosphere boundary. 相似文献