摘要
The authors conducted a study of zero-offset S-wave splitting with the high-order RSG.The S-wave splitting study was mainly focused on fractured media which,on the scale of seismic wavelength,could be regarded as transversely isotropic(TI) media.The results of numerical modeling show that the high-order RSG scheme can be used to simulate waves’ propagation in general anisotropic media.The perfect matched layer(PML) absorbing boundary condition combined with the high order RSG scheme can well attenuate reflections from the artificial boundary.The S-wave splitting is mainly affected by the angle between polarization direction of incoming wave and strike of the TTI media,and the energy of fast and slow shear waves is also associated with this angle.The dipping angle of TTI media may affect time lag between the fast and slow waves,which may result in variation of arrival time of waves from the same interface.Thus,the analysis of energy distribution of the fast and slow waves and the variation of arrival time may help detect the strike and dipping angle of the fracture.