“… - The dispersion equation of guided Love waves in a vertical axis of symmetry (VTI) medium consisting of layers sandwiched between two half‐spaces can be obtained from a dispersion equation in a similar isotropic medium (Buchanan, 1987) just by replacing a few parameters.
- For guided Rayleigh waves, dispersion equation for a VTI‐layered half‐space has been obtained by Bhattacharya (2017), where through a recursive relation the transfer matrix of the first layer of finite thickness is linked to that of the last layer (half‐space). Here, the first layer of finite thickness is replaced here by a half‐space for which necessary (5 × 1) matrix (Equation ) has been obtained to be used in the derived dispersion Equation () for a VTI medium consisting of multilayers sandwiched between two half‐spaces.
- Unlike complex terms in dispersion equations in earlier studies in a VTI medium consisting of sandwiched layers (Ji, Zhang, Wu et al., 2020; Ji, Zhang, Guo et al., 2020), we present here the dispersion equations for the same medium containing only real terms making root finding easier as described in the Introduction section.
- As an application, we compute dispersion curves for a three‐layered model, where VTI coal seam is sandwiched by host rocks. Further, in a five‐layered model, there are two additional layers of mudstone on both sides of VTI coal seam layer along with host rocks.
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