均匀介质背景中三维异常体的面波波场响应及其动力学特征分析   总被引：4，自引：1，他引：3       下载免费PDF全文

张素芳  张智 《地球物理学报》2008,51(4):1180-1187

除介质各向异性之外,地球内部介质的横向非均匀性也是控制面波速度变化的重要因素.本文基于振型耦合和多重散射的地震波传播理论,数值模拟并分析了在具有均匀介质背景的三维异常体——上地幔横向非均匀介质中传播时,地震面波的振幅与偏振等动力学响应参数;其中分别模拟了不同周期入射、不同角度入射和不同尺度非均匀介质模型等多种情形下面波波场,并对横向非均匀性诱导的面波偏振异常进行了分析.结果表明,相对于长周期面波而言,短周期面波的振幅和偏振方向受横向非均匀性的影响更大,特别是偏振方向对地球结构的非均匀性更为敏感;切向分量存在横向非均性引起的Rayleigh与Love面波耦合现象;异常体边界处表现出强的面波波场响应.  相似文献   

核幔边界地幔侧不同尺度横向非均匀对地球自由振荡的影响     

《地球物理学进展》2017,(4)

地球自由振荡携带着丰富的地球内部结构信息,地球内部核幔边界的横向非均匀性问题是当今地球物理学相关学科研究的热点和难点.为了研究不同尺度横向非均匀结构对地球自由振荡的影响,本文在PREM地球模型中分别引入具有横向非均匀结构的D"区和超低速异常带(ULVZ),构建了有针对性的、新的不同尺度横向非均匀结构地球模型,采用波动方程的谱元解法开展地球自由振荡与地震波传播的长时程数值模拟、频谱分析及功率谱密度分析,以评估不同尺度横向非均匀结构对地球自由振荡的影响,从而为研究地球自由振荡的影响因素、优化地球内部结构模型等提供参考.本文的数值结果及其分析显示,除0S27、0S28、0S29和0S30振型外,核幔边界的这两类横向非均匀结构对自由振荡大部分基频振型的特征频率几无影响,仅对幅值有不同程度的影响.这一结果表明:基频振型中0S27、0S28、0S29和0S30振型适合于利用地球自由振荡谱线分裂现象分析核幔边界地幔侧横向非均匀结构的研究,而其余基频振型则不适合此类研究.  相似文献   

地球横向不均匀结构对地表以及空间固定点同震重力变化的影响   总被引：3，自引：2，他引：1       下载免费PDF全文

付广裕  孙文科 《地球物理学报》2012,55(8):2728-2746

本文提出一个新算法,用来高精度计算三维不均匀地球模型中地震位错引起的地表以及空间固定点同震重力变化.具体地说,我们首先把实际三维不均匀地球分解成球对称地球模型和对应的横向不均匀增量,分别进行计算,二者对应的计算结果分别称为球对称解和三维响应.由于球对称解可直接利用球对称地球模型位错理论计算得到,本文的目标是计算三维响应即地球的横向不均匀结构对同震重力变化的影响.然后,我们把三维响应再分为震源的响应和地球横向不均匀结构的响应,它们可分别借助对震源函数的扰动以及对平衡方程式的变分求解.本文推导出六个特殊点源位错引起的地表以及空间固定点同震重力变化计算公式(一个垂直走滑位错,两个相互垂直的倾滑位错,三个开裂位错),对这些公式进行适当组合就可以计算任意位置任意类型位错产生的同震重力变化,对应的计算公式同步给出.接着,依据36阶P波速度模型,我们利用岩石试验经验关系式推导出三维S波速度模型,密度模型,位场模型以及重力模型.最后,利用上述三维模型,本文计算出三种典型类型的点源位错产生的同震重力变化,结果显示三维响应与位错类型,震源深度都有关系,其最大响应占球对称解的0.5%左右,且在所有影响因素中S波速度模型影响最大.数值结果同时表明,三维响应中震源的响应与地球横向不均匀构造的响应处于同一量级.本文给出的地表和空间固定点同震重力变化计算公式可分别高精度解析地表重力和卫星重力观测数据(GRACE、GOCE等),提高大地测量数据理论解析水平.  相似文献   

介质非均匀性参数对散射波包络的影响     

范小平  杨从杰  李清河  霍祝青  王俊 《国际地震动态》2012,(6):84-84

地球内部不同尺度的非均匀体会引起高频地震波的散射,这些散射携带了大量关于地球内部介质非均匀精细结构的信息,可通过研究地震波散射信息来获取地球内部介质结构非均匀性.非均匀介质速度微扰动是造成地震波散射的最主要起因,也是引起地震波尾波和散射波包络展宽的主要因素.  相似文献   

关于地球横向不均匀结构对同震重力变化的影响研究     

付广裕  孙文科 《国际地震动态》2012,(6):105-105

以Molodenskiy的三维不均匀潮汐理论以及孙文科等的球对称地球模型位错理论为基础,本研究借助互换定律和扰动方法,推导出一整套计算公式,用来高精度计算三维不均匀地球模型中地震位错引起的地表以及空间同定点同震重力变化.  相似文献   

SNREI地球对表面负荷和引潮力的形变响应   总被引：5，自引：2，他引：5       下载免费PDF全文

徐建桥  孙和平 《地球物理学报》2003,46(3):328-334

基于PREM模型，利用非自转、球型分层、各向同性、理想弹性（SNREI）地球的形变理论，讨论了地球在不同驱动力作用下的形变特征．采用地球位移场方程的4阶Runge Kutta数值积分方法，解算了在表面负荷和日月引潮力作用下地球表面和内部形变和扰动位，并给出了地球表面的负荷Love数和体潮Love数．结果表明在固体内核中的形变很小，液核中低阶(n＜10)负荷位移随半径的变化非常复杂．当负荷阶数超过10时，地核中的形变和扰动位都很小，地球的响应主要表现为弹性地幔中的径向位移，且随深度增加急剧减弱，负荷阶数越高这种衰减的速度越快．SNREI地球的地表负荷Love数和体潮Love数与信号频率的依赖关系很弱．在计算体潮Love数的过程中，采用了SNREI地球的运动方程，同时考虑了由于地球自转和椭率引起的核幔边界附加压力，这一近似处理方法获得的结果能很好地符合地球表面重力潮汐实际观测结果．  相似文献   

SNRVEI地球模型连续分布的简正模及其意义   总被引：5，自引：1，他引：5       下载免费PDF全文

汪汉胜  李国营 《地球物理学报》1997,40(1):78-84

基于Peltier等建立的粘弹地球表面负荷形变理论，运用简正模分析法，实现了SNRVEI粘弹地球模型表面负荷勒夫数从拉氏域至时间域的变换．数值结果印证了韩大仲关于真实地球存在“连续分布的简正模”的结论，同时还表明在保证较高计算精度前提下，为便于计算，将地球核慢边界以上部分划分成较少个物性均匀层是可行的．本文的方法和结果经过数值检验，可用于冰后相对海平面变化、地球自转非潮汐加速度变化等地表负荷均衡动态响应观测量的研究．  相似文献   

随机介质非均匀地质体尺度研究(英文)     

李灿苹  刘学伟 《应用地球物理》2011,8(4):363-369

为了定量地反映复杂非均匀介质非均匀地质体的尺度大小,本文利用统计学方法建立了能够很好地描述复杂非均匀介质特征的随机介质模型,模型参量自相关长度描述了非均匀介质横向和纵向上非均匀体的平均尺度。基于所建立的随机介质模型通过速度的横向变化和速度标准差分别探讨了自相关长度与非均匀体尺度之间的关系。对速度横向变化的研究表明:随机介质内速度具有一定均值和方差并呈随机扰动特征;随着模型自相关长度的增大,非均匀体尺度也随之增大。通过速度标准差的研究得出自相关长度与非均匀体尺度之间关系的拟合公式,利用此公式可以定量地获取非均匀体尺度的实际大小。  相似文献   

大地测量观测和相对海平面联合约束的冰川均衡调整模型   总被引：4，自引：3，他引：1       下载免费PDF全文

汪汉胜  WU Patrick  贾路路  胡波  王志勇 《地球物理学报》2009,52(10):2450-2460

利用大地测量和历史相对海平面变化数据,结合地震剪切波层析模型,联合确定了新的末次冰期冰川均衡调整（GIA）模型,其中地幔黏滞度不仅沿径向而且沿横向变化.研究思路是,先尝试性地选择比例系数β,利用与地震剪切波速异常的线性关系,计算地幔黏滞度横向扰动,并与横向均匀的黏滞度参考模型叠加给出3D地幔黏滞度模型;再利用耦合拉普拉斯方程的有限元法算法进行GIA预测;然后,重复该过程,直到预测与观测之间的吻合满意为止.主要结论有：（1）给出了横向非均匀的地幔黏滞度模型（RF3L20(β=0.4)）,发现了黏滞度显著的横向非均匀性和其对GIA预测的显著影响,指出横向非均匀不完全是由热效应引起的,可能还与化学组分等其他因素有关,该模型可用于地幔动力学研究.（2）给出了全球现今多种GIA预测速率,可为板块运动、陆地水储量、海水质量变化和冰川冰雪质量非平衡监测提供重要的改正.  相似文献   

库车坳陷高陡构造地震勘探复杂性定量分析   总被引：1，自引：1，他引：0       下载免费PDF全文

董文  符力  肖又军  管西竹  吴超 《地球物理学报》2011,54(6):1600-1613

波与非均匀介质的相互作用是多年来地球物理研究的理论问题之一.本文基于地震成像算子,定量分析了库车坳陷盐相关逆冲推覆构造的复杂性.首先,根据地震资料计算了大北构造、博孜构造、却勒构造、西秋10构造和西秋4构造的速度横向变化非均质谱和地层倾角变化非均质谱,这些量化表征高陡构造地质复杂性的地质非均质谱定最描述了速度横向变化和...  相似文献   

Postglacial isostatic adjustment in a self-gravitating spherical earth with power-law rheology   总被引：1，自引：1，他引：0  

Patrick Wu  Hansheng Wang 《Journal of Geodynamics》2008,46(3-5):118

Since microphysics cannot say definitively whether the rheology of the mantle is linear or non-linear, the aim of this paper is to constrain mantle rheology from observations related to the glacial isostatic adjustment (GIA) process—namely relative sea-levels (RSLs), land uplift rate from GPS and gravity-rate-of-change from GRACE. We consider three earth model types that can have power-law rheology (n = 3 or 4) in the upper mantle, the lower mantle or throughout the mantle. For each model type, a range of A parameter in the creep law will be explored and the predicted GIA responses will be compared to the observations to see which value of A has the potential to explain all the data simultaneously. The coupled Laplace finite-element (CLFE) method is used to calculate the response of a 3D spherical self-gravitating viscoelastic Earth to forcing by the ICE-4G ice history model with ocean loads in self-gravitating oceans. Results show that ice thickness in Laurentide needs to increase significantly or delayed by 2 ka, otherwise the predicted uplift rate, gravity rate-of-change and the amplitude of the RSL for sites inside the ice margin of Laurentide are too low to be able to explain the observations. However, the ice thickness elsewhere outside Laurentide needs to be slightly modified in order to explain the global RSL data outside Laurentide. If the ice model is modified in this way, then the results of this paper indicate that models with power-law rheology in the lower mantle (with A  10⁻³⁵ Pa⁻³ s⁻¹ for n = 3) have the highest potential to simultaneously explain all the observed RSL, uplift rate and gravity rate-of-change data than the other model types.  相似文献   

Postglacial isostatic adjustment in a self-gravitating spherical earth with power-law rheology     

《Journal of Geodynamics》2009,47(3-5):118-130

Since microphysics cannot say definitively whether the rheology of the mantle is linear or non-linear, the aim of this paper is to constrain mantle rheology from observations related to the glacial isostatic adjustment (GIA) process—namely relative sea-levels (RSLs), land uplift rate from GPS and gravity-rate-of-change from GRACE. We consider three earth model types that can have power-law rheology (n = 3 or 4) in the upper mantle, the lower mantle or throughout the mantle. For each model type, a range of A parameter in the creep law will be explored and the predicted GIA responses will be compared to the observations to see which value of A has the potential to explain all the data simultaneously. The coupled Laplace finite-element (CLFE) method is used to calculate the response of a 3D spherical self-gravitating viscoelastic Earth to forcing by the ICE-4G ice history model with ocean loads in self-gravitating oceans. Results show that ice thickness in Laurentide needs to increase significantly or delayed by 2 ka, otherwise the predicted uplift rate, gravity rate-of-change and the amplitude of the RSL for sites inside the ice margin of Laurentide are too low to be able to explain the observations. However, the ice thickness elsewhere outside Laurentide needs to be slightly modified in order to explain the global RSL data outside Laurentide. If the ice model is modified in this way, then the results of this paper indicate that models with power-law rheology in the lower mantle (with A ∼ 10⁻³⁵ Pa⁻³ s⁻¹ for n = 3) have the highest potential to simultaneously explain all the observed RSL, uplift rate and gravity rate-of-change data than the other model types.  相似文献   

Pushover分析方法中各种不同的侧向荷载分布方式的影响   总被引：3，自引：1，他引：3  

侯爱波  汪梦甫  周锡元 《世界地震工程》2007,23(3):120-128

目前基于性能的抗震设计研究方兴未艾，其中pushover分析方法作为目前主要的可供操作的抗震设计方法得到广泛的研究。在pushover分析方法中，其中一个关键的问题就是侧向荷载分布方式的确定，因此对各种不同荷载分布方式作综合的分析与比较研究非常有必要。总结了前人所提出的各种不同的侧向荷载分布方式，同时提出一种新的瞬时适应性的侧向荷载分布方式，通过两个实例分析比较了各种不同荷载分布方式的适用范围、有效性及其对结构弹塑性分析结果的影响。  相似文献   

地球物理测井在多年冻土厚度和地下冰调查中的应用   总被引：1，自引：0，他引：1       下载免费PDF全文

蒋观利  吴青柏 《地球物理学报》2016,59(9):3482-3490

基于青藏高原多年冻土区三个钻孔的地球物理测井数据和钻孔编录资料,我们对多年冻土厚度和多年冻土层内地下冰与地球物理测井数据之间的关系进行了相关的分析研究.研究表明,当地层为土壤类型时,可以使用井径和侧向测井曲线来判断多年冻土层厚度;而当地层为致密的基岩时,不能使用上述两种测井曲线来判断多年冻土层厚度.此外,还可以使用长源距伽马-伽马曲线和侧向测井曲线来识别多年冻土层内部分地下冰层的位置,其前提条件是地下冰层具有一定的厚度,或即使厚度较薄,但连续出现.这一研究结果对于利用地球物理测井曲线来调查多年冻土情况具有一定的应用价值.  相似文献   

Use of GRACE determined secular gravity rates for glacial isostatic adjustment studies in North-America   总被引：3，自引：1，他引：2  

Wouter van der Wal  Patrick Wu  Michael G. Sideris  C.K. Shum 《Journal of Geodynamics》2008,46(3-5):144

Monthly geopotential spherical harmonic coefficients from the GRACE satellite mission are used to determine their usefulness and limitations for studying glacial isostatic adjustment (GIA) in North-America. Secular gravity rates are estimated by unweighted least-squares estimation using release 4 coefficients from August 2002 to August 2007 provided by the Center for Space Research (CSR), University of Texas. Smoothing is required to suppress short wavelength noise, in addition to filtering to diminish geographically correlated errors, as shown in previous studies. Optimal cut-off degrees and orders are determined for the destriping filter to maximize the signal to noise ratio. The halfwidth of the Gaussian filter is shown to significantly affect the sensitivity of the GRACE data (with respect to upper mantle viscosity and ice loading history). Therefore, the halfwidth should be selected based on the desired sensitivity.It is shown that increase in water storage in an area south west of Hudson Bay, from the summer of 2003 to the summer of 2006, contributes up to half of the maximum estimated gravity rate. Hydrology models differ in the predictions of the secular change in water storage, therefore even 4-year trend estimates are influenced by the uncertainty in water storage changes. Land ice melting in Greenland and Alaska has a non-negligible contribution, up to one-fourth of the maximum gravity rate.The estimated secular gravity rate shows two distinct peaks that can possibly be due to two domes in the former Pleistocene ice cover: west and south east of Hudson Bay. With a limited number of models, a better fit is obtained with models that use the ICE-3G model compared to the ICE-5G model. However, the uncertainty in interannual variations in hydrology models is too large to constrain the ice loading history with the current data span. For future work in which GRACE will be used to constrain ice loading history and the Earth's radial viscosity profile, it is important to include realistic uncertainty estimates for hydrology models and land ice melting in addition to the effects of lateral heterogeneity.  相似文献   

建筑在强震下横拉承压力钢筋负荷测量          下载免费PDF全文

任燕娟 《地震工程学报》2018,40(4):692-697

在强震状态下,建筑物的横拉承压受力较为复杂,另外由于建筑物形状及在地震中受力面积大小不同,在强震下造成碰撞大小影响不一导致其横拉承压力的随机复杂性十分突出。传统的建筑承压负荷检测方法中钢筋负荷受力测量能力不足,检测结果易出现误差。将建筑钢筋的机械性能设为理想弹塑性,利用建筑物横拉承压力钢筋负荷测量方法,对不同结构、不同工况的建筑钢筋载荷的变化规律进行测试分析,结合建筑局部承压特点和整体结构聚力方式,设计横拉承压力钢筋负荷检测方法,并进行仿真实验,结果表明该方法模型所得数据更加精准,有良好的适用性。  相似文献   

Use of GRACE determined secular gravity rates for glacial isostatic adjustment studies in North-America     

《Journal of Geodynamics》2009,47(3-5):144-154

Monthly geopotential spherical harmonic coefficients from the GRACE satellite mission are used to determine their usefulness and limitations for studying glacial isostatic adjustment (GIA) in North-America. Secular gravity rates are estimated by unweighted least-squares estimation using release 4 coefficients from August 2002 to August 2007 provided by the Center for Space Research (CSR), University of Texas. Smoothing is required to suppress short wavelength noise, in addition to filtering to diminish geographically correlated errors, as shown in previous studies. Optimal cut-off degrees and orders are determined for the destriping filter to maximize the signal to noise ratio. The halfwidth of the Gaussian filter is shown to significantly affect the sensitivity of the GRACE data (with respect to upper mantle viscosity and ice loading history). Therefore, the halfwidth should be selected based on the desired sensitivity.It is shown that increase in water storage in an area south west of Hudson Bay, from the summer of 2003 to the summer of 2006, contributes up to half of the maximum estimated gravity rate. Hydrology models differ in the predictions of the secular change in water storage, therefore even 4-year trend estimates are influenced by the uncertainty in water storage changes. Land ice melting in Greenland and Alaska has a non-negligible contribution, up to one-fourth of the maximum gravity rate.The estimated secular gravity rate shows two distinct peaks that can possibly be due to two domes in the former Pleistocene ice cover: west and south east of Hudson Bay. With a limited number of models, a better fit is obtained with models that use the ICE-3G model compared to the ICE-5G model. However, the uncertainty in interannual variations in hydrology models is too large to constrain the ice loading history with the current data span. For future work in which GRACE will be used to constrain ice loading history and the Earth's radial viscosity profile, it is important to include realistic uncertainty estimates for hydrology models and land ice melting in addition to the effects of lateral heterogeneity.  相似文献   

Effect of lateral heterogeneity on surface wave testing: Numerical simulations and a countermeasure   总被引：1，自引：0，他引：1  

Chih-Ping Lin  Chun-Hung Lin 《Soil Dynamics and Earthquake Engineering》2007,27(6):541-552

The surface wave (S-wave) method has gained popularity in engineering practice for determining S-wave velocity depth profiles. A growing trend is towards the application of S-wave testing for spatially 2-D S-wave velocity tomography, ignoring the assumption of horizontally layered medium. A fourth-order velocity-stress finite difference method is used to perform numerical simulations of S-wave testing in earth models with lateral variation. Results show that the lateral heterogeneity induces a non-stationary property in the space domain, resulting in false depth-related dispersion or higher modes if conventional approach based on stationary assumption is used for the dispersion analysis. Artifacts maybe introduced in spatially 2-D S-wave velocity imaging if the effect of lateral heterogeneity is not accounted for. As a potential countermeasure, a high-lateral-resolution S-wave method is proposed to reduce the effect of lateral heterogeneity while maintaining the resolution and depth range of dispersion analysis. It consists of a walk-away survey and a phase-seaming procedure when synthesizing seismograms with different nearest source-to-receiver offset, allowing wide-wavelength dispersion analysis within a small spatial range. The proof of concept is given with several numerical examples. They show that the high-resolution S-wave method can greatly alleviate the effect of lateral heterogeneity and increase spatial resolution.  相似文献   

1995年日本国兵库县南部地震桩基础典型破坏模式的分析   总被引：2，自引：0，他引：2  

郭璇  李亮 《世界地震工程》2004,20(3):100-108

对于发生在1995年1月17日日本国兵库县南部地震中，以神户市为中心的临海地域中大量由于液化土层的侧向流动引起护坝附近建筑物桩基础在地层中的典型破坏形式进行了破坏和应力分析。将震后破坏建筑物详细的地基调查报告以及用倾斜计及可视照相机等测量手段得到的桩基变形实测结果与解析结果进行了比较分析，对临海建筑物桩基础的破坏机制进行了研究，验证了应力解析的方法-荷载分布法的有效性和实用性。  相似文献   

Feasibility of waveform inversion of Rayleigh waves for shallow shear-wave velocity using a genetic algorithm   总被引：1，自引：0，他引：1  

Chong Zeng  Jianghai Xia  Richard D. MillerGeorgios P. Tsoflias 《Journal of Applied Geophysics》2011,75(4):648-655

Conventional surface wave inversion for shallow shear (S)-wave velocity relies on the generation of dispersion curves of Rayleigh waves. This constrains the method to only laterally homogeneous (or very smooth laterally heterogeneous) earth models. Waveform inversion directly fits waveforms on seismograms, hence, does not have such a limitation. Waveforms of Rayleigh waves are highly related to S-wave velocities. By inverting the waveforms of Rayleigh waves on a near-surface seismogram, shallow S-wave velocities can be estimated for earth models with strong lateral heterogeneity. We employ genetic algorithm (GA) to perform waveform inversion of Rayleigh waves for S-wave velocities. The forward problem is solved by finite-difference modeling in the time domain. The model space is updated by generating offspring models using GA. Final solutions can be found through an iterative waveform-fitting scheme. Inversions based on synthetic records show that the S-wave velocities can be recovered successfully with errors no more than 10% for several typical near-surface earth models. For layered earth models, the proposed method can generate one-dimensional S-wave velocity profiles without the knowledge of initial models. For earth models containing lateral heterogeneity in which case conventional dispersion-curve-based inversion methods are challenging, it is feasible to produce high-resolution S-wave velocity sections by GA waveform inversion with appropriate priori information. The synthetic tests indicate that the GA waveform inversion of Rayleigh waves has the great potential for shallow S-wave velocity imaging with the existence of strong lateral heterogeneity.  相似文献