Evolution of the oceanic lithosphere inferred from Po / So waves traveling in the Philippine Sea Plate

Po / So waves are characterized by their high‐frequency content and long‐duration travel over great distances (up to 3000km) through the oceanic lithosphere. Po / So waves are developed by the multiple forward scattering of P and S waves due to small‐scale stochastic random heterogeneities. To study the nature of these heterogeneities, Po / So waves are analyzed in the Philippine Sea Plate, which consists of three regions with different lithospheric ages. In the Philippine Sea Plate, Po / So waves propagate in the youngest region (15 Ma) and propagate more effectively in older regions. We investigate the mechanism of this propagation efficiency using numerical finite difference method simulations of 2‐D seismic wave propagation. The results of this study demonstrate that the increase in propagation efficiency of Po / So waves depends on the age of the oceanic lithosphere, and this relationship can be qualitatively explained by thickening of the oceanic lithosphere including small‐scale heterogeneities and a reduction in the intrinsic attenuation. These small‐scale heterogeneities may form continuously in oceanic lithosphere from the time of its formation at a spreading ridge, via the solidification of melts distributed in the asthenosphere.