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1.
使用由极密集的临时地震台台网观测的余震到时,阐明了2004年新潟县中部地震主震断层的高分辨率速度结构。评估了速度结构与滑动、应力变化及余震分布的空间关系。根据运动学滑动模型,结合三维地壳结构,计算了断层上静态应力降的分布。具有低余震活动性的高速体十分接近主震的震源,并扩展到了断层的东北侧。该高速体大致与凹凸体重合,其同震滑动量和静态应力降高于周边地区。相比之下,在该高速体的浅外围观测到了负应力降区,沉积厚度向西南方向急剧增加且该区余震活动频繁。我们认为断层破坏区周围围岩的结构非均匀性具有控制主震断层动态破裂过程的显著潜势。 相似文献
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正不均匀体的概念最初是在地震学中为了解释地震波的高频辐射成份提出来的,用来反映断层面上应力明显高于周围的部分。由不均匀体的研究引入的非均匀地震破裂模式,能较好地解释地震波中的复杂成份、主震前破裂的成因以及主破裂之后的应力集中,因此,不均匀体被认为是断层面上破裂的起始器、阻力器和集中器。根据不均匀体在地震破裂运动过程中发挥的作用,可分为凹凸体和障碍体2大类进行研究。凹凸体可理解为震前断层面上存在的 相似文献
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地震断层面上凹凸体和障碍体含义的解析 总被引:3,自引:0,他引:3
由凹凸体和障碍体研究引入的非均匀地震破裂模式,可解释主震前破裂的成因及主破裂之后的应力集中,对地震危险性分析具有重要的理论价值。本文在国内外研究成果的基础上,深入研究了凹凸体和障碍体在地震破裂过程中的作用和意义,解析了凹凸体和障碍体的本质含义,对比分析了两种模式的异同之处,给出了两种模式在不同滑动模型中的适用性,为地震安全性评价提供了有力的理论依据。 相似文献
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从IRIS全球数字地震台网长周期记录中, 选取震中距位于30deg;~90deg;的垂直向远震P波资料, 反演了2003年9月27日中、 俄、 蒙边界MS7.9地震及10月1日MS7.3强余震的地震矩张量解, 研究了MS7.9地震的时空破裂过程. 参考余震的空间分布及周围断层走向, 确定MS7.9地震发震断层走向127deg;、倾角为79deg;、滑动角为171deg;. MS7.9地震震源破裂过程反演结果表明,整个破裂过程持续了37 s,释放标量地震矩0.97times;1020 Nmiddot;m. 破裂主要发生在长110 km, 宽30 km的中地壳以上,最大位错3.6 m. 起始破裂处不是滑动量最大的地方. 断层面上显示出两个显著的、滑动量超过2.0 m的破裂区. 破裂传播至MS7.3震源区附近时, 滑动量迅速减小,显示出破裂传播过程的受阻停止, 反映了障碍体引起的破裂过程的不均匀性. 相似文献
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用于地震活动性研究的模型或模式较多,如基于断裂力学的裂纹扩展模型,反映应力不均匀分布的凹凸体和障碍体模型,模拟地震能积累和释放的弹簧滑块模型、模拟岩层和断层滑动的滑块模型、统一应力场下的断层系模型以及自组织理论下的细胞自组织模型、分形理论下的分形破裂模型等.这些模型多用于解释地震序列的统计规律和某些特征.如:T.Yamashita等(1990)用存在障碍体的二维共平面裂纹扩展模型(引入应力腐蚀)作理论分析,结果表明,主震临近时前震发生率增加。Cao和Aki 相似文献
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本文提出了或许能解释在同一孕震区经常观测到的地震多次发生的模型。这种地震序列或震群可能包含在空间上相距几十公里、在时间上相隔几天至数月的一些事件。本模型考虑了一条埋在弹性半空间内的长垂直走滑断层。断层的强度和滑动类型(地震或无震)是非均匀的,并受到缓慢增加的周围剪切应力的作用。我们假设,断层面的一部分存在有稳定无震滑动的条件,并伴有非稳定的凹凸体。假设产生该序列中的一次地震的凹凸体破裂,引起了远离断层、靠近另一凹凸体区域的地震滑动的开始和加速。后一凹凸体可能破裂而产生震级相似的另一次地震的条件,是作为周围应力速率、凹凸体强度、无震滑动的总量以及无震滑动面积的函数研究的。发现无震滑动对第二次地震的提前发生可能起了很显著的作用。 相似文献
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对1978和2005年发生在同一板块边界而震级不同的日本宫城近海地震建立了自发动力破裂模型,再现了由运动学震源模型所预测的滑动和破裂速度。对这两次地震的动力学震源参数进行比较,可使我们看到同一断层上不同震源过程的破裂动力学特征。特别是,我们比较了应力降和破裂能,在这两次地震中,二者可以进行稳定的评估。在整个断层面上和两次地震破裂的凹凸体上,两个模型中应力降的最大值和平均值几乎相同。另外,1978年地震的震级比2005年的大,它的破裂能值不仅是在整个断层面上,而且在多次破裂的凹凸体上也比2005年的大。这些结果与先前用地震矩所做的破裂能标度的研究结果一致。我们还将破裂能值与以前研究中所估算的其他内陆地震的能值进行了对比,我们得到的宫城近海地震的值较小。造成这种不一致的原因可能是内陆浅源地震和俯冲带深源地震在构造背景上的差异。 相似文献
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2021年5月22日青海玛多MW7.4地震作为发生在巴颜喀拉块体内部的一次强震,再次引起了人们对该地区地震活动性的强烈关注.本文基于震后GNSS流动观测和区域连续GNSS站资料,解算了106个站点的同震形变及其中17个站点的高频形变波形.同震形变场显示玛多地震具有典型的左旋走滑特征,GNSS观测到的最大同震位移达到1.2 m.GNSS与InSAR数据相符度较高,GNSS提供了准确的近场形变信息.基于GNSS同震形变场,本文反演了断层滑动分布,并计算了发震断层上产生的库仑应力变化.结果表明,发震断层的滑动破裂存在多个凹凸体,破裂分段特征明显且出露地表,与野外地表破裂考察和余震分布吻合,主体破裂位于断层面0~10 km的浅部区域,最大滑动量达到4.6 m,地震矩1.63×1020N·m,矩震级为MW7.4;发震断层上静态库仑应力增加区域与余震分布具有一致性,说明余震主要是由静态库仑应力加载而触发的. 相似文献
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介绍了沿着有非均匀摩擦力的断层的索米格连纳位错传播的二维模式。断层滑动是由随时间缓慢增加的均匀的外界剪应力驱动的,位错在断层平面上的最小摩擦区成核,此区域被周转较高摩擦区(凹凸体)所限制。所研究的情况是具有平滑边界具有恒定摩擦梯度特征的凹凸体。对于弱带摩擦的外界剪切应力值来说,由于出现凹凸体,位错的传播被缓慢降下来,只是当它越过边界时,位错前缘才以逐渐增加的的速度前移。模式表明:在给定的外界剪切应 相似文献
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We developed a recipe for predicting strong ground motions based on a characterization of the source model for future crustal earthquakes. From recent developments of waveform inversion of strong motion data used to estimate the rupture process, we have inferred that strong ground motion is primarily related to the slip heterogeneity inside the source rather than average slip in the entire rupture area. Asperities are characterized as regions that have large slip relative to the average slip on the rupture area. The asperity areas, as well as the total rupture area, scale with seismic moment. We determined that the areas of strong motion generation approximately coincide with the asperity areas. Based on the scaling relationships, the deductive source model for the prediction of strong ground motions is characterized by three kinds of parameters: outer, inner, and extra fault parameters. The outer fault parameters are defined as entire rupture area and total seismic moment. The inner fault parameters are defined as slip heterogeneity inside the source, area of asperities, and stress drop on each asperity based on the multiple-asperity model. The pattern of rupture nucleation and termination are the extra fault parameters that are related to geomorphology of active faults. We have examined the validity of the earthquake sources constructed by our recipe by comparing simulated and observed ground motions from recent inland crustal earthquakes, such as the 1995 Kobe and 2005 Fukuoka earthquakes. 相似文献
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— The study of surface deformation due to seismic activity is often made using dislocations with uniform slip and simple geometries. A better modeling of coseismic and postseismic surface displacements can be obtained by using dislocations with variable slip and nonregular shapes. This is consistent with the asperity model of fault surfaces, assuming a friction distribution on faults made of locked zones with much higher friction than surrounding zones. In this paper we consider the 1997–1998 Colfiorito seismic sequence. The coseismic surface displacements in the Colfiorito zone are used in order to infer the slip distribution on the fault surface at different stages of the sequence. The displacement field has been modeled varying the slip distribution on the fault, and comparing the deformation observed by SAR and GPS techniques with model results. The slip distribution is calculated by Monte Carlo simulations on a normal fault with the dip angle equal to 40°. A good approximation is obtained by using square asperity units of 1.5×1.5 km2. In the first stage, we employed a simplified model with uniform slip, in which each asperity unit is allowed to slip a constant amount or not to slip at all, and in the second stage, we evaluate the slip distribution in the dislocation area determined by the Monte Carlo inversion: in this case we allow unit cells to undergo different values of slip in order to refine the initial dislocation model. The results show that the 1997 seismic events of the sequence can be modeled by irregular dislocations, obtaining a good fit to the DInSAR and GPS observations. The model also confirms the results of previous studies by a different methodology, defining the distribution of asperities on the fault plane using the fault geometry, the geodetic data and the seismic moment of the 1997–1998 Colfiorito seismic sequence. Furthermore, the analysis of 1997 aftershocks in the seismogenic region shows a strong correlation between most events and the asperity distribution, which can be considered as an independent test of the validity of the model. 相似文献
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A model has been developed to simulate the statistical and mechanical nature of rupture on a heterogeneous strike-slip fault. The model is based on the progressive failure of circular asperities of varying sizes and strengths along a fault plane subjected to a constant far-field shear displacement rate. The basis of the model is a deformation and stress intensity factory solution for a single circular asperity under a unidirectional shear stress. The individual asperities are unified through the fault stiffness and the far-field stress and displacement. During fault deformation asperities can fail and reheal, resulting in changes in the local stresses in the asperities, stress drops, and changes in the stiffness of the fault. Depending on how the stress is redistributed following asperity failure and on the strenghts of the neighboring asperities an earthquake event can be the failure of one or more asperities. Following an earthquake event seismic source parameters such as the stress drop, energy change, and moment magnitude are calculated. Results from the model show a very realistic pattern of earthquake rupture, with reasonable source parameters, the proper magnitude-frequency behavior, and the development of characteristic earthquakes. Also the progression ofb-values in the model gives some insight into the phenomenon of self-organized criticality. 相似文献
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Dense strong motion observation networks provided us with valuable data for studying strong motion generation from large earthquakes. From kinematic waveform inversion of seismic data, the slip distribution on the fault surface of large earthquakes is known to be spatially heterogeneous. Because heterogeneities in the slip and stress drop distributions control the generation of near-source ground motion, it is important to characterize these heterogeneities for past earthquakes in constructing a source model for reliable prediction of strong ground motion. The stress changes during large earthquakes on the faults recently occurring in Japan are estimated from the detailed slip models obtained by the kinematic waveform inversion. The stress drops on and off asperities are summarized on the basis of the stress change distributions obtained here. In this paper, we define the asperity to be a rectangular area whose slip is 1.5 or more times larger than the average slip over the fault according to the previous study for inland crustal earthquakes. The average static stress drops on the asperities of the earthquakes studied here are in the range 6?C23?MPa, whereas those off the asperities are below 3?MPa. We compiled the stress drop on the asperities together with a data set from previous studies of other inland earthquakes in Japan and elsewhere. The static stress drop on the asperity depends on its depth, and we obtained an empirical relationship between the static stress drop and the asperity??s depth. Moreover, surface-breaking asperities seemed to have smaller stress drops than buried asperities. Simple ground motion simulations using the characterized asperity source models reveal that deep asperities generate larger ground motion than shallow asperities, because of the different stress drops of the asperities. These characteristics can be used for advanced source modeling in strong ground motion prediction for inland crustal earthquakes. 相似文献
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由宽频带辐射能量目录和地震矩目录给出的视应力及其地震学意义 总被引:24,自引:2,他引:24
对NEIC宽频带地震辐射能量目录和哈佛矩心矩张量(CMT)目录的比较,给出了关于视应力的一些可能是有意义的结果,尽管目前的结果误差仍很大,可靠性也是有限的,但这种比较所提供的线索却颇值得注意,视应力的计算给出关于地震断层面上非线性动摩擦函数的线索,能量/地震矩之比随地震大小的变化表明,在BK模型框架下,对于走滑型地城,依赖于滑动速度的摩擦似乎占主要地位,而对于非走滑型地震,依赖于位移的摩擦似乎占主要地位,主震和余震的能量/地震矩之比的比较表明,对于走滑型地震,余震的视应力平均地说来低于主震的视应力,而对于非直滑型地震,余震的视应力即有高于主震的也有低于主震的,这对于障碍体和凹凸模式的讨论及模型中地震破裂停止条件的设置可能具有一定的参考意义。 相似文献
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本文利用2015年尼泊尔MW7.9地震断层面滑动位移分布的运动学反演结果,通过傅里叶变换法得到了主断层面上的两分量应力状态,并研究了余震的空间分布和断层面上应力状态之间的关系.发现滑动位移分布与应力状态分布都相对较为集中,大约70%的余震分布在应力变化为正的区域,而其余发生在应力降区域的余震,又大多发生在应力变化梯度较大的地区.为了得到一个更符合实际的滑动模型来解释余震的触发机制,我们计算了波数域中滑动位移和应力状态的傅里叶谱,发现此次地震的滑动位移和应力状态近似满足k-3和k-2衰减.我们利用简化的圆盘模型说明了非均匀应力变化下的衰减过程,计算了圆盘模型的有效半径re约等于0.7倍的圆盘半径.这就说明圆盘模型中应力增加的部分应该占整个圆盘破裂面积的51%.在本次尼泊尔MW7.9地震实例中,断层面上应力状态为负的区域比滑动位移为正的区域有了明显地缩小.事实表明,余震可以发生在有滑动位移的区域,非均匀应力降模型比均匀应力降模型更加接近真实的震源破裂过程. 相似文献
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Comparison of source parameters estimated in the frequency and time domains for seismic events at the Rudna copper mine,Poland 总被引:3,自引:0,他引:3
Source parameters estimated in the frequency domain for 100 selected seismic events from the Rudna copper mine, with moment
magnitude ranging from 1.4 to 3.6, were collected to study their scaling relations and to compare them with the parameters
estimated in the time domain. The apparent stress and static stress drop, corrected for the limited bandwidth recording, increase
slightly in a similar manner with increasing seismic moment. The ratio of apparent stress to static stress drop, a measure
of radiation efficiency, is practically constant and its mean value is close to 0.1.
For 37 seismic events, with moment magnitude between 1.9 and 3.4, source parameters were estimated in the time domain from
relative source time functions, that displayed unilateral rupture propagation, and their rupture velocity could be estimated.
It ranges from 0.23 to 0.80 of shear wave velocity and is almost independent of seismic moment. The fault length, estimated
from the average source pulse width and rupture velocity, is clearly dependent on seismic moment and is smaller than the source
radius estimated from the corner frequency on the average by about 25 percent. There is no correlation between the values
of static stress drop estimated in the frequency and time domains, but the time domain stress drop is in general similar to
that estimated in the frequency domain. The apparent stress increases with increasing rupture velocity, and the ratio of apparent
stress to static stress drop seems also to depend on rupture velocity. 相似文献
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Seismic moment, stress drop, source radius, and fault dislocation have been determined for nineteen significant earthquakes in the Konya area, India using displacement spectra of shear waves computed from strong-motion accelerograph records. Though the stress-drop shows a definite increasing trend with the seismic moment, its correlations with source radius and corner frequency indicate that a constant stress drop of 170 bars represents a good mean value to describe the source mechanism of the Koyna dam earthquakes. An empirical relationship also has been established between magnitude and seismic moment. 相似文献
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Stress drop assessment of the August 8, 2017, Jiuzhaigou earthquake sequence and its tectonic implications* 
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下载免费PDF全文 By using a broadband Lg attenuation model developed for the Tibetan Plateau, we isolate source terms by removing attenuation and site effects from the observed Lg-wave displacement spectra of the M7.0 earthquake that occurred on August 8, 2017, in Jiuzhaigou, China, and its aftershock sequence. Thus, the source parameters, including the scalar seismic moment, corner frequency and stress drop, of these events can be further estimated. The estimated stress drops vary from 47.1 kPa to 7149.6 kPa, with a median value of 59.4 kPa and most values falling between 50 kPa and 75 kPa. The estimated stress drops show significant spatial variations. Lower stress drops were mainly found close to the mainshock and on the seismogenic fault plane with large coseismic slip. In contrast, the highest stress drop was 7.1 MPa for the mainshock, and relatively large stress drops were also found for aftershocks away from the major seismogenic fault and at depths deeper than the zone with large coseismic slip. By using a statistical method, we found self-similarity among some of the aftershocks with a nearly constant stress drop. In contrast, the stress drop increased with the seismic moment for other aftershocks. The amount of stress released during earthquakes is a fundamental characteristic of the earthquake rupture process. As such, the stress drop represents a key parameter for improving our understanding of earthquake source physics. 相似文献