用尾波的强度和衰减估算北京地区 S 波的平均自由程h

Aki 提出的单次散射模型由于它的简单而显得很实用.作为单次散射模型的改进,本文表明应用多次散射模型也可给出一个简单可行的办法来估算一定地区地下介质的不均匀性.本文分别用尾波的强度和衰减求出与散射有关的 Q 因子.可以看到,尽管单次散射模型和多次散射模型两者给出了十分接近的结果,但后者显得更加合理并有其自相一致性.本文认为,无论运用哪个简化了的模型,方程(InA=1——Int——b1t 或 InA=2——0.5lnt——b2t)中的对数项是不可忽略的.本文应用北京地区地震台网资料,求出了频率在1Hz 左右北京地区 S 波的平均自由程,结果见表2.      

台湾琉球地区Lg波的震相特征

根据浙闽台站记录的台湾琉球近震资料，研究了该区Ｌｇ波的组成及各震相的基本特征。研究表明，该区Ｌｇ波由多个速度不同的波群组成，在Ｌｇ１和Ｌｇ２两种波中可以分出Ｌｇ′１、Ｌｇ″１；和Ｌｇ′２、Ｌｇ″２四种震相，不同震区各震相的记录特征明显不同，鲜明地反映出地壳结构由大陆型向海洋型过渡的特点。此外，还对波列中的未知震相、影响震相记录特征的其它因素，以及震相标注和Ｌｇ波走时表等问题进行了讨论。     

圆弧型沉积盆地对平面SH波的散射

采用波函数展开方法给出圆弧型沉积盆地对面ＳＨ波二维散射问题的封闭级数解答。利用外域Ｇｒａｆ加法公式将解答归结为无穷代数方程组的求解。通过截断计算得到解答的数值结果，并通过连续条件的满足程度检验了截断计算的精度。将本文结果已有的近似解析解进行比较，指出了近似解答的误差来源和适用范围。给出一些典型算例说明盆地深度比对地震动的复杂作用。     

求震源机制P波初动解的格点尝试概率法

考虑到Ｐ波初动数据在震源球面上分布的不均匀性对节面解的可能影响，不用矛盾符号所占比例的大小作为选择可取节面解的标准，而是将震源球面分成许多小块，再确定有Ｐ波初动数字的小块为正号区或负号区的概率，最后以全部有数据小块的平均概率的高低作为选择解答的标准。用此改进方法重新测定了徐纪仁等（Ｘｕ ｅｔ．ａｌ，，１９８８）发表的青藏高原地区９９个地震的震源机制解，从中筛选出了２０个可信的解答。     

横向非均匀介质中弹性地震波传播的数值模拟

应用混合变量弹性动力学方程和线性常微分方程组的矩阵指数解法，将层状介质中广泛应用的弹性波传播矩阵解法推广至横向非均匀介质，给出了一种可计算复杂地质体中弹性波传播的广义传播矩阵数值解法。该方法可模拟任意震源及所产生的各种体波、面波，数值结果表明具有很高的计算精度。     

动力边界积分方程法及其应用

文中简要介绍了作者在国家地震局工程力学研究所学习和工作期间，该所动力边界积分方程法及其应用课题研究组这几年来的研究成果。     

地震波在湿颗粒介质中的传播

本文利用拉格朗日运动方程建立了湿颗粒介质中的波场方程组,由此研究了平面简谐波在其中的传播。文中还导出了湿颗粒介质中的支承拉梅系数和耦合弹性系数的表示式。     

建立地震发射台的建议

目前地球上有成千上万个地震台，但它们都是接收地震波的地震台。建议建立一种新型的地震台，这种地震台用人工的方法不断地向外发射地震波，照亮需要研究地区的地下结构，研究特定的科学问题。建立地震发射台的核心问题是选择合适的人工震源，近年来出现的绿色环保震源，以及现代信息处理技术的发展，使得建立照亮10万km2(深至Moho面)地区地下结构的地震发射台已经完全是可能的。     

Influence of the Kunlun Mountain Ms8.1 Earthquake on Horizontal Crustal Deformation in the Sichuan and Yunnan Area

In order to track the space-time variation of regional strain field holistically(in a large scale) and to describe the regional movement field more objectively,the paper uses a nonlinear continuous strain model focused on extracting medium-low frequency strain information on the basis of a region with no rotation.According to the repeated measurements(1999～2001～2004) from GPS monitoring stations in the Sichuan and Yunnan area obtained by the Project of "China Crust Movement Measuring Network",and with the movement of 1999～2001(stage deformation background) as the basic reference,we separated the main influencing factors of the Kunlun Mountain M-S8.1 earthquake in 2001 from the data of 2001 and 2004,and the results indicate:(1) the Kunlun Mountain M-S8.1 earthquake has a discriminating effect on the Sichuan and Yunnan area,moreover,the deformation mode and background had not only certain similitude but also some diversity;(2) The movement field before the earthquake was very ordinal,while after the earthquake,order and disorder existed simultaneously in the displacement field;The displacement quantities of GPS monitoring stations were generally several millimeters;(3) The principal strain field before earthquake was basically tensile in an approximate EW direction and compressive in the SN direction,and tension was predominant.After the earthquake,the principal strain field in the Sichuan area was compressive in the EW direction and tensile in the SN direction,and the compression was predominant.In the Yunnan area,it was tensional in the NE direction and compressive in the NW direction,and tension was predominant;(4) The surficial strain before the earthquake was dominated by superficial expansion,the contractive area being located basically in the east boundary of Sichuan and Yunnan block and its neighborhood.After the earthquake,the Sichuan area was surface contractive(the further north,the greater it was),and south of it was an area of superficial expansion.Generally speaking,the Kunlun Mountain M-S8.1 earthquake played an active role in the accumulation of energy in the Sichuan and Yunnan area.Special attention shall be focused on the segment of Xichang-Dongchuan and its neighborhood.