Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Angular and Frequency-Dependent Wave Velocity and Attenuation in Fractured Porous Media
IRIS IRIS Home Sfoglia Macrotipologie & tipologie Autore Titolo Riviste Serie IT Italiano Italiano …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …

Wave-induced fluid flow generates a dominant attenuation mechanism in porous media. It
consists of energy loss due to P-wave conversion to Biot (diffusive) modes at mesoscopic …