摘要
为了得到波动方程偏移距域共成像点道集(ODCIGs)和角度域共成像点道集(ADCIGs)与偏移速度的关系,在匀速单层水平反射情况下,对ODCIGs和ADCIGs随偏移速度的变化进行了定量的推导,得到偏移速度偏小时ODCIGs与半偏移距成双曲关系,反之成椭圆关系;结合深度聚焦分析,得到偏移速度偏大时,ADCIGs中视入射角大于真入射角,反之,小于真入射角;在速度偏小时,ADCIGs上剩余时差(RMO)与视入射角的正切值成椭圆关系,反之成双曲关系.在地震有效入射角度范围内,ADCIGs对于偏大的偏移速度更加敏感.在偏移速度分析(MVA)中,从稍大的速度开始分析会对速度分析更加有利.
In order to probe the relationships between wave equation offset domain common image gathers (ODCIGs)/angle domain common image gathers (ADCIGs) with migration velocity, we quantitatively derive the changes of ODCIGs and ADCIGs along with migration velocity on the assumption of uniform velocity medium with a horizontal reflector. We come to conclusion that ODCIGs are hyperbolas with half offset; on the contrary, they are ellipses. Combined with the results of depth focusing analysis, we find the apparent incident angles in ADCIGs are larger than the real incident angles when the migration velocity is larger than the true one and vice versa. With lower migration velocity, the residual moveout (RMO) on ADCIGs is an ellipse with the tangent of apparent incident angle; otherwise, it's a hyperbola. In the valid seismic incident angle, ADCGs are much more sensitive to the higher migration velocity. As to migration velocity analysis (MVA), it is suggested to start with a little higher initial velocity.
出处
《地球科学(中国地质大学学报)》
EI
CAS
CSCD
北大核心
2007年第4期575-582,共8页
Earth Science-Journal of China University of Geosciences
基金
国家863研究计划项目(No2006AA09Z323)
国家自然科学基金项目(No40504016)
关键词
偏移距域共成像点道集
角度域共成像点道集
剩余时差
偏移速度分析
offset domain common image gathers
angle domain common image gathers
residual moveout
migration veloci ty analysis.
