排序方式: 共有35条查询结果,搜索用时 0 毫秒
31.
In this paper,we collect 6 361 waveform data to calculate the shear wave splitting parameters from a regionalseismic network of 22 digital stations in Yunnan and its adjacent area from July 1999 to June 2005.By using thecross-correlation method,64 splitting events of 16 stations are processed.We also collect the splitting results ofeight earthquake sequences to present the characteristics of shear wave splitting in Yunnan and its adjacent areas.The orientations of maximum principal compressive stress of three sub-regions in this area are derived from theCMT focal mechanism solutions of 43 moderate-strong earthquakes provided by Harvard University by the P axisazimuth-averaging method.The principal strain rate at each observatory is deduced from the observations ofCrustal Movement Observation Network of China during the period from 1999 to 2004.In addition,the data of Pnaniso-tropy and SKS splitting of Yunnan and its adjacent areas are also collected.We have discovered from thisstudy that the continental lithosphere,as a main seismogenic environment for strong earthquake,can be dividedinto blocks laterally;the mechanical behavior of lithosphere varies with depth and can be divided into differentlayers in the vertical orientation;the information of crustal deformation obtained from GPS might be affected bythe type of blocks,since there are different types of active blocks in Yunnan and its adjacent areas;the shear wavesplitting in this region might be affected mainly by the upper crust or even the surface tectonics. 相似文献
32.
33.
34.
云南地区中小地震静力学和动力学参数定标关系 总被引:1,自引:0,他引:1
通过消除S波观测谱中的传播路径、场地响应、仪器响应等影响因素,得到中小地震的震源谱.根据Brune震源模型,运用遗传算法计算了地震矩、应力降、震源半径等震源参数;通过考虑由于有限的仪器带宽带来的地震辐射能量低估及补偿问题,测定了中小地震辐射能量;分析了云南地区ML2.0 ~5.3地震静力学和动力学参数定标关系.结果表明:地震矩为2.1×1012~1.2 ×1016N·m,地震矩M0和震级ML的线性关系式为lgM0=1.01ML+10.59;震源破裂半径在86.9~1220.4m之间,地震矩M0与震源半径a之间的关系式为lgM0 =0.003a+ 12.90;应力降结果介于0.03 ~57.55MPa之间,当M0<4×1014N.m时,应力降随地震矩的增大而增大,当M0≥4 ×1014N·m时,应力降与地震矩之间无明显的依赖关系;地震矩M0与拐角频率∫c明显有依赖关系,二者之间的关系式为lgfc=- lgM0+5.32;地震辐射能量ER在3.01×106~2.06×1012J之间,地震辐射能量ER与震级ML之间的关系为lgER=1.18ML+5.69.当M0<4×1014N·m时,折合能量有随地震矩增大而增大的趋势,当M0≥4×1014N·m时,折合能量不随地震矩的增大而变化;地震视应力范围为0.02~31.4MPa之间,视应力与震源深度之间没有明显的依赖性. 相似文献
35.
2003年云南大姚6.2、6.1级地震序列特征分析及地震触发研究 总被引:15,自引:2,他引:15
本文采用双差定位法对2003年7月21日、10月16日云南大姚先后发生的6.2、6.1级地震及其余震序列进行精定位。结果表明,两个主震的震中位置相当接近,余震序列的空间分布呈明显的线性分布,地震序列精定位后的结果同震源机制解吻合很好,两个地震的发震断层均是近乎直立的右旋走滑断层。此次大姚6.2、6.1级双震,和云南地区大多数其它双震有所不同,余震分布并不呈现共轭分布,而近乎一条直线,两者间有部分重叠,表明两者受控于同一发震断层。相对主震而言,余震都呈不均匀分布,近乎一种单侧分布,6.2级地震的余震集中于主震的西北方向,6.1级地震的余震集中于主震的东南方向,并且6.1级地震是6.2级地震在同一断层向东南端延伸的另一次破裂。库仑破裂静应力变化Δσf研究结果表明,7月21日6.2级地震对10月16日6.1级地震有明显的触发作用,两个主震对断层外余震的发生均有不同程度的应力触发作用,并且2000年姚安6.5级地震对大姚两次地震的发生也有触发作用。 相似文献