Estimation of S-wave velocity structures in and around the Sendai basin, Japan, using array records of microtremors

We conducted array measurements of microtremors at six sires in and around the Sendai basin to estimate deep S-wave velocity structures above the seis mological bedrock (pre-Tertiary bedrock). After estimating phase velocities of microtremors in the frequency range from about 0.5 to 3 Hz, we succeede d to estimate the deep structures above the pre-Tertiary bedrock at four so il sites (KATA, OKIN, ARAH, and MYG15) and only the upper part just beneath the Pliocene layer at the other soil site (TRMA) using a Rayleigh-wave inv ersion technique. At TRMA and a rock site TAMA, we roughly estimate the dee p S-wave velocity structures using empirical site amplification factors der ived from strong-motion records. The deepest bedrock depth is 1 km, and the shallowest depth is 200 m among these six sires. The difference of the bed rock depth between the eastern side and the western side of an active thrus t fault, the Nagamachi-Rifu line, is only 120 m. The difference of the bedr ock depth between two sires in the east of the basin reaches about 500 mi a lthough any geological boundaries or buried faults have not been mapped. Si nce the deep S-wave velocity structure of the Sendai basin had been basical ly unknown, we delineate it for the first rime in this article using array measurement of microtremors.